CN113746296B - Intelligent wearable device - Google Patents

Abstract

The application discloses intelligence wearing equipment belongs to intelligence wearing field. The intelligent wearable device comprises a device main body, an electric vibrating reed and a wearing piece, wherein the wearing piece is connected with the device main body, and at least one of the device main body and the wearing piece is provided with the electric vibrating reed; wherein the electric vibrating plate vibrates when a voltage is applied to the electric vibrating plate. The intelligent wearing equipment in this application embodiment, the equipment main part with in the wearing piece at least one is provided with the electricity trembler, when applying voltage for electricity trembler, electricity trembler can produce the vibration, contacts the human body so that the human body can experience the vibration through the vibration that electricity trembler produced, and then realizes reminding, can reduce the production of noise, and the setting of being convenient for is convenient for remind, avoids causing the influence to circuit and device around the equipment, improves customer and uses experience.

Description

Intelligent wearable device

Technical Field

This application belongs to intelligence wearing field, concretely relates to intelligence wearing equipment.

Background

With the progress of technology and the change of user requirements, the form and application hot spots of wearable smart devices are also changing continuously. At present, wearable smart machine (for example intelligent wrist-watch) uses vibrating motor to realize the suggestion, the motor generally is flat motor, SMT motor and linear motor, owing to receive the restriction of smart machine volume, the motor volume is generally less, vibrating motor's vibration volume is more weak, generally transmit the human body through the equipment casing, be difficult to play the suggestion effect under the circumstances of noisy and people's deep sleep, the electric field or the magnetic field that magnet steel and coil produced in the motor cause the influence to circuit and device around the electronic equipment easily, there is the noise when the motor rotates, influence customer experience.

Disclosure of Invention

The purpose of the embodiment of the application is to provide an intelligence wearing equipment, can solve current vibrating motor vibration volume less than, remind the effect not good, produce the noise easily, the problem that the electric field or the magnetic field that magnet steel and coil in the motor produced led to the fact the influence to circuit and device around the equipment easily.

In order to solve the technical problem, the present application is implemented as follows:

the embodiment of the application provides an intelligence wearing equipment, includes:

the wearable device comprises a device main body, an electric vibrating reed and a wearing piece, wherein the wearing piece is connected with the device main body, and at least one of the device main body and the wearing piece is provided with the electric vibrating reed;

wherein the electric vibrating piece vibrates when a voltage is applied thereto.

The device body is provided with a first groove, and the electric vibrating reed is arranged in the first groove;

when voltage is applied to the electric vibration plate, the electric vibration plate is deformed, and at least part of the electric vibration plate protrudes out of the first groove.

The display screen is arranged on the first side of the equipment main body, and the electric vibrating reed is arranged on the second side of the equipment main body;

wherein the first side and the second side are distributed in an opposite manner.

The number of the electric vibrating reeds is multiple, and the electric vibrating reeds are arranged on the device main body at intervals.

The wearing piece is provided with a second groove, and the electric vibrating reed is arranged in the second groove.

The number of the electric vibrating reeds is multiple, the number of the second grooves is the same as the number of the electric vibrating reeds, and the electric vibrating reeds are distributed on the wearing piece at intervals along a preset direction through the second grooves.

The electric vibrating reed comprises a first electric vibrating reed and a second electric vibrating reed, the first electric vibrating reed is arranged in a first area on the wearing piece, and the second electric vibrating reed is arranged in a second area on the wearing piece;

when a voltage is applied to the first electric vibrating reed and the second electric vibrating reed, the first electric vibrating reed and the second electric vibrating reed are different in deformation direction.

The equipment main body comprises a battery module and a control module, the control module is respectively electrically connected with the battery module and the electric vibrating reed, and the control module is used for controlling the voltage of the electric vibrating reed.

The electric vibration plate is an ion conduction vibration plate which comprises a first electrode layer, an ion exchange resin layer and a second electrode layer which are sequentially stacked, and a polymer electrolyte is arranged in the ion exchange resin layer.

When the voltage applied to the electric vibrating reed is a first voltage, the electric vibrating reed deforms along a first direction;

when the voltage applied to the electric vibrating reed is a second voltage, the electric vibrating reed deforms along a second direction;

wherein the first voltage and the second voltage are opposite in polarity, and the first direction is opposite to the second direction.

When the voltage applied to the electric vibrating sheet is a first voltage, the amplitude of the electric vibrating sheet is a first amplitude;

when the voltage applied to the electric vibration plate is a third voltage, the amplitude of the electric vibration plate is a second amplitude;

the first voltage and the third voltage have the same polarity, the third voltage is larger than the first voltage, and the first amplitude is different from the second amplitude.

When the voltage applied to the electric vibrating reed is a first voltage, the electric vibrating reed vibrates at a first frequency;

when the voltage applied to the electric vibration plate is a third voltage, the electric vibration plate vibrates at a second frequency;

the first voltage and the third voltage have the same polarity, the third voltage is greater than the first voltage, and the first frequency is different from the second frequency.

In an embodiment of the application, the smart wearable device includes a device main body, an electric vibrating reed and a wearing piece, the wearing piece is connected with the device main body, and at least one of the device main body and the wearing piece is provided with the electric vibrating reed; wherein the electric vibrating piece vibrates when a voltage is applied thereto. The intelligent wearing equipment in this application embodiment, the equipment main part with in the wearing piece at least one is provided with the electricity trembler, when applying voltage for electricity trembler, electricity trembler can produce the vibration, contacts the human body so that the human body can experience the vibration through the vibration that electricity trembler produced, and then realizes reminding, can reduce the production of noise, and the setting of being convenient for is convenient for remind, avoids causing the influence to circuit and device around the equipment, improves customer and uses experience.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent wearable device according to an embodiment of the present application;

fig. 2a is a schematic view of an electric vibrating plate on a device body;

fig. 2b is another schematic view of the electric vibrating piece on the device body;

fig. 3 is still another schematic view of an electric vibrating piece on a device body;

fig. 4 is a schematic view of an electric vibrating reed on a wearing member;

FIG. 5a is a schematic view of the electric vibrating piece without applying a voltage to the device body;

FIG. 5b is a schematic view of the electric vibrating piece when a voltage is applied to the device body;

FIG. 6a is a schematic view of an electric vibrating reed when no voltage is applied to the wearing part;

FIG. 6b is a schematic view of the electric vibrating reed when a voltage is applied to the wearing member;

FIG. 6c is another view of the electroluminescent vibrating reed when a voltage is applied to the wearing member;

fig. 7 is another schematic structural diagram of the intelligent wearable device according to the embodiment of the present application;

fig. 8 is a schematic structural diagram of another intelligent wearable device according to an embodiment of the present application;

fig. 9a is another schematic view of the electric vibrating reed when no voltage is applied to the wearing member;

figure 9b is a schematic view of the wearing piece when the electrovibrating reed is deformed;

figure 9c is another illustration of the wearing part when the electrovibrating reed is deformed.

Reference numerals

An apparatus main body 10; a first groove 11;

a wearing member 20; a second groove 21;

an electric vibrating piece 30; a first electric vibrating piece 31; a second electroluminescent vibrating strip 32.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be implemented in sequences other than those illustrated or described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The intelligent wearable device provided by the embodiment of the present application is described in detail through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

As shown in fig. 1 to 9c, the smart wearable device according to the embodiment of the present application includes a device main body 10, an electric vibrating reed 30, and a wearing piece 20, the wearing piece 20 is connected to the device main body 10, and at least one of the device main body 10 and the wearing piece 20 is provided with the electric vibrating reed 30; wherein, when a voltage is applied to the electric vibrating piece 30, the electric vibrating piece 30 vibrates.

That is to say, the intelligent wearable device mainly comprises the device main body 10, the electric vibrating reed 30 and the wearing part 20, the wearing part 20 can be connected with the device main body 10, for example, two ends of the wearing part 20 can be respectively connected with the device main body 10, the wearing part 20 can be worn on the wrist, the wearing part 20 can be made of an elastic material or a flexible material, for example, the wearing part can be made of a rubber material, so that the wearing part 20 can deform or bend, and wearing is convenient. At least one of the device main body 10 and the wearing member 20 may be provided with an electric vibrating reed 30, for example, the electric vibrating reed 30 is provided on the device main body 10, when a voltage is applied to the electric vibrating reed 30, the electric vibrating reed 30 may be deformed and vibrate back and forth, and the voltage at both ends of the electric vibrating reed 30 may be adjusted as required to generate vibrations with different amplitudes or frequencies, so that a user of the intelligent wearing device may be reminded through different vibrations.

As shown in fig. 3 and 4, in some embodiments of the present invention, the electric vibrating reed 30 may be disposed on the device main body 10 or the wearing part 20, and when the electric vibrating reed 30 is disposed on the wearing part 20, the wearing part 20 has a reminding function in addition to the function of wearing and fixing the wearing part 20; in another embodiment, the electric vibrating reed 30 may be provided on both the device main body 10 and the wearing member 20, and the electric vibrating reed 30 may be provided on the device main body 10 and the wearing member 20 at a position easily contacting the human body. In the embodiment of the present invention, the electric vibrating reed 30 may be connected to a driving circuit, and the driving circuit may supply power, when a voltage is applied to the electric vibrating reed 30, the electric vibrating reed 30 generates vibration, the vibrating electric vibrating reed 30 contacts with a human body at a certain frequency, and by repeatedly controlling the electric vibrating reed 30 to be in a power-on or power-off state, the tactile feedback may directly act on the periphery of the skin of the human body, and the experience effect is good, so that the human body may feel stronger vibration.

In the intelligent wearing device of the embodiment of the application, at least one of the device main body 10 and the wearing part 20 is provided with the electric vibrating reed 30, when a voltage is applied to the electric vibrating reed 30, the electric vibrating reed 30 can vibrate, the human body can be felt to vibrate by contacting the vibrating electric vibrating reed 30, and then reminding is achieved, noise generated by the vibrating part can be remarkably reduced, meanwhile, the electric vibrating reed 30 is convenient to set, so that influence on circuits and devices around the device can be avoided, and use experience of a user is improved.

In some embodiments of the present application, as shown in fig. 5a, the device body 10 may be provided with a first groove 11, the electric vibrating piece 30 may be provided in the first groove 11, and both ends of the electric vibrating piece 30 may be fixed on inner sidewalls of the first groove 11. Exemplarily, in the case that the smart wearable device is a smart watch, the device main body 10 may be a dial plate of the watch, the dial plate may be circular or square, and when the electric vibrating reed 30 vibrates or deforms, the device main body 10 does not deform, and the user is reminded by the vibration or deformation. When a voltage is applied to the electric vibrating reed 30, as shown in fig. 5b, the electric vibrating reed 30 can be deformed, and at least a part of the deformed electric vibrating reed 30 protrudes out of the first groove 11 to contact a human body, so that a wearer can be reminded; as shown in fig. 5a, when no voltage is applied to the electric vibrating reed 30, the electric vibrating reed 30 is not deformed, and at this time, the electric vibrating reed 30 can be completely located in the first groove 11, so that the influence on the comfort of the human body wearing the smart wearable device can be avoided.

In other embodiments of the present application, a display screen may be disposed on a first side of the device main body 10, the electric vibrating reed 30 may be disposed on a second side of the device main body 10, and the first side and the second side are distributed in a back-to-back manner, so that the electric vibrating reed 30 contacts with a human body when being worn, thereby improving a vibration effect of the device.

Alternatively, the number of the electric vibrating reed 30 may be plural, and the plural electric vibrating reeds 30 may be provided at intervals on the device body 10. The number of the electric vibrating reed 30 is at least five, for example, as shown in fig. 2a and 2b, the smart wearable device may be a smart watch, in which case the device body 10 may be a dial of the watch, the dial may be a circle, a square or other shape, and the electric vibrating reed 30 is disposed on the second side of the device body 10. Alternatively, the number of the electric vibrating reed 30 is five, wherein one electric vibrating reed 30 is disposed in the central region on the device main body 10, and the remaining four electric vibrating reeds 30 are disposed at intervals along the circumferential direction of the device main body 10, so that the electric vibrating reed 30 is in contact with the human body through different positions, and the vibration feeling is provided in all directions, thereby improving the vibration effect of the device.

In the embodiment of the application, as shown in fig. 6a, the wearing member 20 may be provided with a plurality of second grooves 21, the second grooves 21 may be provided with a plurality of second grooves 21, the electric vibrating reed 30 may be provided in the second grooves 21, and one electric vibrating reed 30 may be provided in each of the second grooves 21, so as to provide a vibration touch in multiple directions, and when the electric vibrating reed 30 is not deformed, the electric vibrating reed 30 may be adhered in the second groove 21, thereby avoiding affecting the wearing experience of the user. The wearing member 20 may be an elastic material or a flexible material, i.e. the wearing member 20 may be deformed or bent. As shown in fig. 6a, when no voltage is applied to the electric vibrating reed 30 on the wearing member 20, the electric vibrating reed 30 on the wearing member 20 does not vibrate and deform; as shown in fig. 6b and fig. 6c, when a voltage is applied to the electric vibrating reed 30 on the wearing member 20, the electric vibrating reed 30 on the wearing member 20 deforms and vibrates, at this time, the electric vibrating reed 30 can drive the wearing member 20 to deform and vibrate together, and when the polarities of the voltages applied to the two ends of the electric vibrating reed 30 are different, the deformation directions of the electric vibrating reed 30 are also different, so that the user can feel the vibration alert.

Alternatively, as shown in fig. 4, the number of the electric vibrating reed 30 may be plural, the number of the second grooves 21 is the same as the number of the electric vibrating reed 30, and the plural electric vibrating reeds 30 are spaced on the wearing member 20 along the preset direction through the second grooves 21. For example, a plurality of the electric vibrating reeds 30 may be disposed at intervals along the length direction of the wearing member 20, at least three electric vibrating reeds 30 are provided on the wearing member 20, and the number of the electric vibrating reeds 30 is three, so that the tactile requirement of three directions can be satisfied. In this embodiment, the preset direction may also be the width direction of the wearing part 20 or any other direction.

In an embodiment of the application, as shown in fig. 7, the electroluminescent vibrating reed 30 comprises a first electroluminescent vibrating reed 31 and a second electroluminescent vibrating reed 32, the first electroluminescent vibrating reed 31 is arranged in a first area on the wearing part 20, the second electroluminescent vibrating reed 32 is arranged in a second area on the wearing part 20, and the first area and the second area may be adjacently distributed along the length direction of the wearing part 20. The voltage applied across the first electroluminescent vibrating reed 31 and the voltage applied across the second electroluminescent vibrating reed 32 may be the same or different. When a voltage is applied to the first and second electric vibrating reeds 31 and 32, the directions of the vibration deformation of the first and second electric vibrating reeds 31 and 32 are different, so that the deformation strength of the wearing member 20 is enhanced, and the feeling to the human body is improved. As shown in fig. 9a, when no voltage is applied to the first and second electric vibrating pieces 31 and 32, the first and second electric vibrating pieces 31 and 32 are not vibrated and deformed; the first and second electric vibrating reeds 31 and 32 may be provided with opposite electrodes, and then alternating current may be applied to the electrodes, and after voltage is applied, as shown in fig. 9b and 9c, the first and second electric vibrating reeds 31 and 32 vibrate and deform in opposite directions, so as to provide stronger tactile sensation, and thus power is repeatedly supplied, so that the skin of a human body may be continuously pressed, and the effect of vibration indication may be achieved.

In the embodiment of the present application, the apparatus main body 10 includes a battery module and a control module, the control module is electrically connected to the battery module and the electric vibrating reed 30, and the control module is configured to control the voltage at two ends of the electric vibrating reed 30, so as to control the vibration of the electric vibrating reed 30.

In some embodiments of the present application, the apparatus main body 10 may include an orientation sensor and a control module, the orientation sensor may identify the electric field induced vibration plate 30 contacting with the human body, the orientation sensor may be connected to the control module, and the control module may apply a voltage to the electric field induced vibration plate 30 contacting with the human body, so that the electric field induced vibration plate 30 contacting with the human body is deformed and vibrates, and thus the voltage may be applied to the electric field induced vibration plate 30 in a targeted manner, thereby reducing energy consumption. For example, under the condition that the intelligent wearable device is an intelligent watch, when the device main body 10 (such as a dial plate of the watch) sends a vibration touch prompt request, a signal can be given to the orientation sensor in the device main body 10, the orientation sensor identifies the electric vibrating reed 30 in contact with the human body, and the control module applies a voltage to the electric vibrating reed 30 in contact with the human body, so that the electric vibrating reed 30 in contact with the human body deforms and vibrates to squeeze the skin of the human body, so that power is repeatedly supplied, the touch feedback of the human body is realized, and the vibration prompt function is achieved.

In the embodiment of the present application, the electric vibrating piece 30 may be an ion conduction vibrating piece, and the ion conduction vibrating piece may include a first electrode layer, an ion exchange resin layer, and a second electrode layer stacked in this order, the ion exchange resin layer having a polymer electrolyte therein, and a voltage may be applied to the ion exchange resin layer through the first electrode layer and the second electrode layer. The ion conduction vibrating reed is a composite material actuator element, and by applying voltage to the ion conduction vibrating reed, cations in polymer electrolyte move to the cathode side to cause the difference of swelling of the front side and the back side of the ion conduction vibrating reed, so that the ion conduction vibrating reed deforms, the ion conduction vibrating reed can deform when voltage is applied, the ion conduction vibrating reed does not deform when voltage is not applied, and the generated deformation can bring vibration touch to a human body to achieve the reminding purpose. Through pouring into different kinds of ion into in the ion exchange resin layer, can make the deformation speed and the deformation volume of ion exchange resin layer different to can select suitable ion kind according to required deformation speed and deformation volume.

In some embodiments of the present application, when the voltage applied to the electric vibrating piece 30 is a first voltage, the electric vibrating piece 30 is deformed in a first direction; when the voltage applied to the electric vibrating piece 30 is the second voltage, the electric vibrating piece 30 is deformed in the second direction; the first voltage and the second voltage are opposite in polarity, the first direction is opposite to the second direction, and deformation in the opposite direction is generated through the electric-induced vibration plate 30, so that the vibration touch sense is stronger, and the vibration prompt effect of the equipment is improved.

In other embodiments of the present application, when the voltage applied to the electric vibrating reed 30 is a first voltage, the amplitude of the electric vibrating reed 30 is a first amplitude; when the voltage applied to the electric vibrating piece 30 is the third voltage, the amplitude of the electric vibrating piece 30 is the second amplitude; the first voltage and the third voltage have the same polarity, the third voltage is greater than the first voltage, and the first amplitude is different from the second amplitude, that is, the first amplitude is greater than the second amplitude, or the second amplitude is greater than the first amplitude. The voltage applied to the electric vibrating reed 30 is different, so that the amplitude of the electric vibrating reed 30 is different, a human body feels different vibration tactility, and the vibration prompt effect of the equipment is improved.

In the embodiment of the present application, when the voltage applied to the electric vibrating piece 30 is the first voltage, the electric vibrating piece 30 vibrates at the first frequency; when the voltage applied to the electric vibrating piece 30 is the third voltage, the electric vibrating piece 30 vibrates at the second frequency; the first voltage and the third voltage have the same polarity, the third voltage is greater than the first voltage, and the first frequency is different from the second frequency, that is, the first frequency is greater than the second frequency, or the second frequency is greater than the first frequency. The different voltages applied to the electric vibrating reed 30 can make the vibration frequency of the electric vibrating reed 30 different, so that the human body can feel different vibration tactility, and the vibration prompt effect of the device is improved.

Optionally, in a case that the intelligent wearable device is an intelligent watch, the device main body 10 may be a dial plate of the watch, the dial plate may include devices such as a watch display screen, a battery, and a sensor, and the dial plate may have one or more functions of reminding, navigating, calibrating, monitoring, interacting, and the like, besides indicating time. The device body 10 may also be an electronic product such as a cellular phone, a headphone, and an AR/VR that also has tactile cues. Under the condition that intelligence wearing equipment is intelligent glasses, the equipment principal can include the glasses picture frame, and wearing can be glasses leg, and of course, intelligence wearing equipment can also be intelligent bracelet, intelligent belt, intelligent necklace etc..

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The intelligent wearable device is characterized by comprising a device main body, an electric vibrating reed and a wearable piece, wherein the wearable piece is connected with the device main body, and at least one of the device main body and the wearable piece is provided with the electric vibrating reed;

wherein when a voltage is applied to the electric vibrating reed, the electric vibrating reed vibrates, a second groove is arranged on the wearing piece, the electric vibrating reed is arranged in the second groove, the number of the electric vibrating reed is multiple, the number of the second groove is the same as that of the electric vibrating reed, the electric vibrating reeds are distributed on the wearing piece at intervals along a preset direction through the second groove, the electric vibrating reed comprises a first electric vibrating reed and a second electric vibrating reed, and when a voltage is applied to the first electric vibrating reed and the second electric vibrating reed, the deformation directions of the first electric vibrating reed and the second electric vibrating reed are different,

the equipment main body comprises a battery module and a control module, the control module is respectively electrically connected with the battery module and the electric vibrating reed, the control module is used for controlling the voltage of the electric vibrating reed, the equipment main body further comprises an orientation sensor connected with the control module, and the control module identifies the electric vibrating reed in contact with a human body through the orientation sensor and applies the voltage.

2. The smart wearable device according to claim 1, wherein a first groove is formed in the device body, and the electric vibrating reed is disposed in the first groove;

when voltage is applied to the electric vibration plate, the electric vibration plate is deformed, and at least part of the electric vibration plate protrudes out of the first groove.

3. The smart wearable device according to claim 1, wherein a display screen is provided on a first side of the device body, and the electric vibrating reed is provided on a second side of the device body;

wherein the first side and the second side are distributed in an opposite manner.

4. The smart wearable device according to claim 1, wherein the number of the electric vibrating reed is plural, and the plural electric vibrating reeds are provided at intervals in the device main body.

5. The smart wearable device according to claim 1, wherein the first electro-vibrating reed is disposed in a first region of the wearing member, and the second electro-vibrating reed is disposed in a second region of the wearing member.

6. The smart wearable device according to claim 1, wherein the electric vibrating reed is an ion conducting vibrating reed, the ion conducting vibrating reed includes a first electrode layer, an ion exchange resin layer, and a second electrode layer stacked in this order, and the ion exchange resin layer has a polymer electrolyte therein.

7. The smart wearable device according to claim 1,

when the voltage applied to the electric vibrating reed is a first voltage, the electric vibrating reed deforms along a first direction;

when the voltage applied to the electric vibrating reed is a second voltage, the electric vibrating reed deforms along a second direction;

wherein the first voltage and the second voltage are opposite in polarity, and the first direction is opposite to the second direction.

8. The smart wearable device according to claim 1, wherein when the voltage applied to the electric stimulation vibration sheet is a first voltage, the amplitude of the electric stimulation vibration sheet is a first amplitude;

when the voltage applied to the electric vibration plate is a third voltage, the amplitude of the electric vibration plate is a second amplitude;

the first voltage and the third voltage have the same polarity, the third voltage is greater than the first voltage, and the first amplitude is different from the second amplitude.

9. The smart wearable device according to claim 1, wherein when the voltage applied to the electric vibrating plate is a first voltage, the electric vibrating plate vibrates at a first frequency;

when the voltage applied to the electric vibration plate is a third voltage, the electric vibration plate vibrates at a second frequency;

the first voltage and the third voltage have the same polarity, the third voltage is greater than the first voltage, and the first frequency is different from the second frequency.

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