CN112987438A - Electronic equipment and shell structure thereof - Google Patents

Abstract

The application discloses electronic equipment's shell structure and electronic equipment, shell structure includes: a housing; the electrochromic device is arranged on the shell and can change color under the condition of applying voltage; the temperature detection structure is arranged on the shell and comprises a thermal resistance layer, and the thermal resistance layer is arranged on the outer side of the shell; the control module applies voltage to the electrochromic layer according to the temperature detected by the temperature detection structure. The color of the shell can be changed by applying voltage to the electrochromic device, the temperature detection structure is arranged on the shell, a hand of a user can contact the temperature detection structure, the temperature detection structure detects the temperature of the user, the control module applies voltage to the electrochromic layer according to the temperature detected by the temperature detection structure, the color of the electrochromic layer can change along with the change of the temperature, the temperature of the user can be conveniently detected, the temperature of the user can be known through the color of the shell, and the use experience of the user is enhanced.

Description

Electronic equipment and shell structure thereof

Technical Field

The application belongs to the technical field of terminals, and particularly relates to a shell structure of electronic equipment and the electronic equipment.

Background

As mobile phones are developed faster and faster, users have higher requirements on functions/technologies and appearance. In addition, as people pay more and more attention to health, some human body feature tests are integrated on the wearable terminal, and the trend of terminal industry development is also, such as tests for increasing pulse, heart rate, blood oxygen and the like.

Disclosure of Invention

An object of the embodiments of the present application is to provide a housing structure of an electronic device and an electronic device, so as to solve a problem that a housing cannot show a body temperature of a user.

In a first aspect, an embodiment of the present application provides a housing structure of an electronic device, including:

a housing;

an electrochromic device provided on the housing, the electrochromic device being color-changeable upon application of a voltage;

the temperature detection structure is arranged on the shell and comprises a thermal resistance layer, and the thermal resistance layer is arranged on the outer side of the shell;

and the control module is used for applying voltage to the electrochromic layer according to the temperature detected by the temperature detection structure.

Wherein the electrochromic device comprises: the electrochromic device comprises a first conducting layer, an electrochromic layer and a second conducting layer which are sequentially stacked, wherein at least one of the first conducting layer and the second conducting layer is transparent.

Wherein, still include:

the insulating layer is arranged on one side, far away from the electrochromic layer, of the second conducting layer;

the thermal resistance layer is arranged on one side of the insulating layer, which is far away from the electrochromic layer.

Wherein the thermal resistance layer extends along a circumferential direction of the insulating layer or an edge of the case.

Wherein, still include:

a transparent first base layer, wherein the first base layer is arranged on one side of the first conducting layer far away from the electrochromic layer;

a transparent second base layer disposed between the second conductive layer and the insulating layer.

Wherein, still include:

a transparent third base layer disposed on a side of the thermal resistance layer away from the electrochromic layer.

Wherein the thermal resistance layer extends around the circumference of the first conductive layer or the second conductive layer, and the thermal resistance layer and the first conductive layer or the second conductive layer are arranged at intervals.

And a filling layer is filled between the thermal resistance layer and the first conducting layer or the second conducting layer, and the filling layer is an insulating material.

The thermal resistance layer and the first conducting layer or the second conducting layer are arranged in the same layer and made of the same material.

Wherein, still include:

a transparent first base layer, wherein the first base layer is arranged on one side of the first conducting layer far away from the electrochromic layer;

a transparent second base layer, wherein the second base layer is arranged on one side of the second conducting layer far away from the electrochromic layer;

the thermal resistance layer set up in first basic unit with between the second basic unit, just the thermal resistance layer with first conducting layer the second conducting layer the interval sets up between the electrochromic layer.

Wherein an orthographic projection of the thermal resistance layer on the second base layer surrounds orthographic projections of the first conductive layer, the second conductive layer and the electrochromic layer on the second base layer.

And a filling layer is filled between the first base layer and the second base layer, and the filling layer is an insulating material.

The temperature detection structure further comprises a detection module and a processing module, wherein the detection module is electrically connected with the thermal resistance layer, the detection module can detect the resistance of the thermal resistance layer, and the processing module obtains the temperature detected by the thermal resistance layer according to the resistance of the thermal resistance layer.

Wherein, the temperature detection structure is arranged at the edge of the shell.

In a second aspect, an embodiment of the present application provides an electronic device, which includes the housing structure in the foregoing embodiment.

According to the shell structure of the electronic equipment of this application embodiment, include: a housing; an electrochromic device provided on the housing, the electrochromic device being color-changeable upon application of a voltage; the temperature detection structure is arranged on the shell and comprises a thermal resistance layer, and the thermal resistance layer is arranged on the outer side of the shell; and the control module is used for applying voltage to the electrochromic layer according to the temperature detected by the temperature detection structure. In the housing structure of electronic equipment of this application embodiment, set up electrochromic device on the casing, can change the colour of casing through applying voltage to electrochromic device set up the temperature on the casing and detect the structure, the thermal resistance layer is established the outside of casing, when the user uses electronic equipment, convenient to use person's hand can contact the thermal resistance layer in the temperature detection structure to detect user's temperature through the temperature detection structure, control module basis the temperature that the temperature detected the structure detect to appling voltage on the electrochromic layer, the colour of electrochromic layer can change along with the change of temperature, convenient to detect user's temperature, can monitor user's body temperature at any time, just can learn user's temperature through the colour of casing, and is simple and convenient, and the user experience of reinforcing user.

Drawings

FIG. 1 is a schematic diagram of an electrochromic device;

FIG. 2 is a schematic diagram of a combination of a thermal resistor layer and an electrochromic layer;

FIG. 3 is another schematic diagram of the combination of a thermal resistor layer and an electrochromic layer;

FIG. 4 is a schematic view of a thermal resistance layer on a third substrate;

FIG. 5 is a schematic diagram of the connection of the detection module, the processing module and the control module;

FIG. 6 is a schematic view of yet another mating of a thermal resistor layer with an electrochromic layer;

FIG. 7 is a schematic view of yet another mating of the thermal resistor layer and the electrochromic layer;

FIG. 8 is a schematic view of a thermal resistance layer on a first substrate;

FIG. 9 is another schematic view of a thermal resistance layer on a first substrate;

FIG. 10 is a schematic view of yet another mating of a thermal resistor layer with an electrochromic layer;

FIG. 11 is a further schematic view of the thermal resistance layer in combination with the electrochromic layer;

FIG. 12 is a schematic view of the housing structure;

FIG. 13 is another structural schematic of the housing structure;

fig. 14 is yet another structural schematic of the housing structure.

Reference numerals

A housing 10; a first conductive layer 11; a second conductive layer 12;

an electrochromic layer 20; an ion storage layer 21; an electrolyte layer 22; a color-changing layer 23;

an insulating layer 30;

a thermal resistance layer 40;

a first base layer 51; a second base layer 52;

a third base layer 53; a filler layer 54;

a detection module 60;

a processing module 70;

a control module 80.

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, 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 is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation 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 following describes in detail a housing structure of an electronic device according to an embodiment of the present application with reference to fig. 1 to 14 through specific embodiments and application scenarios thereof.

As shown in fig. 1 to 14, a housing structure of an electronic device according to an embodiment of the present application includes a housing 10, an electrochromic device, a temperature detection structure and a control module, where the electrochromic device may be disposed on the housing 10, the electrochromic device may be disposed on a surface of one side of the housing 10, the electrochromic device may change color when a voltage is applied, the electrochromic device may be controlled according to polarity and magnitude of the applied voltage, the temperature detection structure may be disposed on the housing 10, the temperature detection structure may include a thermal resistance layer, the thermal resistance layer may be disposed on an outer side of the housing 10, the temperature detection structure may be disposed on a surface of one side of the housing 10, the electrochromic device and the temperature detection structure may be disposed on the same side of the housing 10, and a specific disposition position may be selected according to actual needs. The temperature detecting structure may have a plurality of temperature detecting structures, a plurality of temperature detecting structures may be spaced apart from each other on the housing 10, and the temperature detecting structure may be disposed at an edge region of the housing 10 to facilitate contact with a user. The control module 80 may be configured to apply a voltage to the electrochromic layer 20 according to the temperature detected by the temperature detecting structure, and the temperature detected by the temperature detecting structure, that is, the body temperature of the user, may be observed through the color of the electrochromic layer 20.

In the shell structure of electronic equipment of the embodiment of this application, set up electrochromic device on casing 10, can change the colour of casing 10 through applying voltage to electrochromic device, set up the temperature detection structure on casing 10, the thermal resistance layer is established in the outside of casing 10, when the user uses electronic equipment, the user's hand of being convenient for can contact the thermal resistance layer in the temperature detection structure, so that detect user's temperature through the temperature detection structure, control module applys voltage to electrochromic layer 20 according to the temperature that the temperature detection structure detected, the colour of electrochromic layer 20 can change along with the change of temperature, be convenient for detect user's temperature, can monitor user's body temperature at any time, just can learn user's temperature through the colour of casing 10, and is simple and convenient, the user experience of reinforcing user. Through setting up temperature detection structure and electrochromic device can be so that have the function of discolouing on the casing 10, still have the function of detecting user's body temperature, moreover, change the colour of casing according to user's body temperature, can learn user's body temperature through the colour of casing for electronic equipment's shell structure's function is more. As shown in fig. 1, the electrochromic layer 20 may include an ion storage layer 21, an electrolyte layer 22, and a color-changing layer 23, which are sequentially stacked, wherein the ion storage layer 21 may be a color-changing polymer ECM (composite), the electrolyte layer 22 may be a solid gel electrolyte layer, and the color-changing layer 23 may be a transparent color-changing polymer ECM.

In other embodiments, as shown in fig. 3, 7 and 11, the electrochromic device may include: the electrochromic device comprises a first conductive layer 11, an electrochromic layer 20 and a second conductive layer 12 which are sequentially stacked, wherein voltage can be applied to the electrochromic layer 20 through the first conductive layer 11 and the second conductive layer 12 so as to enable the electrochromic layer 20 to change color, and at least one of the first conductive layer 11 and the second conductive layer 12 is transparent so that the color of the electrochromic layer 20 can be observed by a user.

Optionally, as shown in fig. 2, 3, and 12, the housing structure may further include: the insulating layer 30, the insulating layer 30 can be transparent insulating glue, can have an adhesive effect, the insulating layer 30 can be established in the one side of keeping away from the electrochromic layer 20 of the second conducting layer 12, the temperature detection structure includes a thermal resistance layer 40, the thermal resistance layer 40 is established in the one side of keeping away from the electrochromic layer 20 of the insulating layer 30, and the insulating layer 30 makes the thermal resistance layer 40 and the second conducting layer 12 insulated from each other. The thermal resistor layer 40 may be formed by etching, plating, or the like, and the thermistor material is mainly formed by sintering a composite oxide of manganese, cobalt, titanium, molybdenum, or the like at a high temperature.

Alternatively, the thermal resistance layer 40 may extend along the circumference of the insulating layer 30, or the thermal resistance layer 40 may extend along the edge of the case 10, so as to be in contact with the user, so as to detect the body temperature of the user.

In some embodiments, as shown in fig. 1 to 3, 6 to 7, and 10 to 14, the housing structure may further include a transparent first base layer 51 and a transparent second base layer 52, wherein the first base layer 51 may be disposed on a side of the first conductive layer 11 away from the electrochromic layer 20, and the second base layer 52 may be disposed between the second conductive layer 12 and the insulating layer 30, and the first conductive layer 11 and the second conductive layer 12 may be protected by the first base layer 51 and the second base layer 52.

In other embodiments, as shown in fig. 2, 3, 4, and 12, the housing structure may further include: a transparent third base layer 53, wherein the third base layer 53 is disposed on a side of the thermal resistance layer 40 away from the electrochromic layer 20, and the thermal resistance layer 40 can be protected by the third base layer 53.

In an embodiment of the present application, the temperature detecting structure may include a thermal resistance layer 40, the thermal resistance layer 40 may extend around a circumferential direction of the first conductive layer 11 or the second conductive layer 12, and the thermal resistance layer 40 and the first conductive layer 11 or the second conductive layer 12 are disposed at an interval, so as to avoid contact between the thermal resistance layer 40 and the first conductive layer 11 or the second conductive layer 12, and avoid mutual interference when the power is turned on. The whole thickness of the electrochromic device is about 0.2-0.3 mm, and the thermal resistance layer 40 can be directly contacted with the base layer to form a thin film. In fabrication, the thermal resistance layer 40 and the first conductive layer 11 may be plated together onto the first base layer 51.

Optionally, as shown in fig. 6, 7, 10, 11, 13, and 14, a filling layer 54 may be filled between the thermal resistance layer 40 and the first conductive layer 11 or the second conductive layer 12, the filling layer 54 may be an insulating material, and the filling layer 54 may be an insulating glue, so that the thermal resistance layer 40 is insulated from the first conductive layer 11 or the second conductive layer 12, thereby avoiding mutual interference when energized and avoiding short circuit.

In the embodiment of the present application, as shown in fig. 9, the thermal resistance layer 40 and the first conductive layer 11 or the second conductive layer 12 are disposed in the same layer and made of the same material, and a transparent material may be used, for example, Indium Tin Oxide (ITO) may be used for the thermal resistance layer 40, the first conductive layer 11, and the second conductive layer 12, which facilitates manufacturing and simplifies the process. The conductive material ITO, which also has thermal conductivity, is used as a thermal resistance layer 40 for routing, specifically as shown in fig. 9, a thermal resistance layer 40 spaced from the first conductive layer 11 may be formed around the first conductive layer 11 by an etching process, and two thermocouple electrodes are plated at two ends of the thermal resistance layer 40, so as to facilitate connection with the outside. Electrodes may be connected to the first conductive layer 11 and the second conductive layer 12 for external connection.

In some embodiments, as shown in fig. 10 and 11, the housing structure may further include a transparent first base layer 51 and a transparent second base layer 52, wherein the first base layer 51 may be disposed on a side of the first conductive layer 11 away from the electrochromic layer 20, the second base layer 52 may be disposed on a side of the second conductive layer 12 away from the electrochromic layer 20, the first base layer 51 and the second base layer 52 may be organic transparent materials, and the first conductive layer 11 and the second conductive layer 12 may be protected from external influences by the first base layer 51 and the second base layer 52. The thermal resistance layer 40 may be disposed between the first base layer 51 and the second base layer 52, and the thermal resistance layer 40 is disposed at an interval with the first conductive layer 11, the second conductive layer 12, and the electrochromic layer 20, so as to avoid contact between the thermal resistance layer 40 and the first conductive layer 11, the second conductive layer 12, and the electrochromic layer 20, and avoid mutual influence when the power is turned on.

Alternatively, the orthographic projection of the thermal resistance layer 40 on the second base layer 52 may surround the orthographic projection of the first conductive layer 11, the second conductive layer 12 and the electrochromic layer 20 on the second base layer 52, and a user can conveniently approach or touch the thermal resistance layer 40 when using the electronic device so as to detect the body temperature of the user through the thermal resistance layer 40. The thermal resistance layer 40 can form a loop, a user can monitor the temperature by only holding the device in the hand, conductive electrodes can be introduced into two ends of the thermal resistance layer 40, and the conductive electrodes can be connected with an external flexible circuit board or a wiring to realize data acquisition of resistance change.

Optionally, as shown in fig. 10, 11, 13 and 14, a filling layer 54 may be filled between the first base layer 51 and the second base layer 52, the filling layer 54 is an insulating material, and the filling layer 54 may be an insulating glue, so as to avoid short circuit. The first base layer 51 and the second base layer 52 may be supported by the filling layer 54, and the first conductive layer 11, the second conductive layer 12, and the electrochromic layer 20 may be sealed between the first base layer 51 and the second base layer 52 to prevent external influences.

In the embodiment of the present application, as shown in fig. 5, the temperature detection structure may include a thermal resistance layer 40, a detection module 60 and a processing module 70, the detection module 60 is electrically connected to the thermal resistance layer 40, the detection module 60 may perform input and output of current through two pins, the detection module 60 may be electrically connected to the processing module 70, the detection module 60 may detect the resistance of the thermal resistance layer 40, the processing module 70 obtains the temperature detected by the thermal resistance layer 40 according to the resistance of the thermal resistance layer 40, and the control module 80 may apply a voltage to the electrochromic layer 20 according to the detected temperature, and may apply voltages of different polarities and magnitudes as needed, so as to change the color of the electrochromic layer 20. The resistance of the thermal resistance layer 40 changes according to the change in temperature, and the current passing through the thermal resistance layer 40 also changes, and the resistance of the thermal resistance layer 40 can be obtained from the change in current, and the temperature can be detected from the change in resistance.

In some embodiments, the temperature detecting structure may be disposed at an edge of the housing 10, so that a user can touch or approach the temperature detecting structure when using the electronic device, so as to accurately detect the body temperature of the user.

The embodiment of the application provides an electronic device, which comprises the shell structure in the embodiment. The electronic device with the shell structure in the embodiment has the functions of changing color and detecting the body temperature of the user, and the body temperature of the user can be known through the color of the shell, so that the shell structure of the electronic device has more functions.

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 (15)

1. A housing structure of an electronic device, comprising:

a housing;

an electrochromic device provided on the housing, the electrochromic device being color-changeable upon application of a voltage;

the temperature detection structure is arranged on the shell and comprises a thermal resistance layer, and the thermal resistance layer is arranged on the outer side of the shell;

and the control module is used for applying voltage to the electrochromic layer according to the temperature detected by the temperature detection structure.

2. The housing structure of claim 1, wherein the electrochromic device comprises: the electrochromic device comprises a first conducting layer, an electrochromic layer and a second conducting layer which are sequentially stacked, wherein at least one of the first conducting layer and the second conducting layer is transparent.

3. The housing structure of claim 2, further comprising:

the insulating layer is arranged on one side, far away from the electrochromic layer, of the second conducting layer;

the thermal resistance layer is arranged on one side of the insulating layer, which is far away from the electrochromic layer.

4. The casing structure of claim 3, wherein the thermal resistance layer extends along a circumferential direction of the insulating layer or an edge of the casing.

5. The housing structure of claim 3, further comprising:

a transparent first base layer, wherein the first base layer is arranged on one side of the first conducting layer far away from the electrochromic layer;

a transparent second base layer disposed between the second conductive layer and the insulating layer.

6. The housing structure of claim 5, further comprising:

a transparent third base layer disposed on a side of the thermal resistance layer away from the electrochromic layer.

7. The casing structure of claim 2, wherein the thermal resistance layer extends circumferentially around the first or second conductive layer and is spaced apart from the first or second conductive layer.

8. The casing structure of claim 7, wherein a filler layer is filled between the thermal resistance layer and the first conductive layer or the second conductive layer, and the filler layer is an insulating material.

9. The casing structure of claim 7 wherein the thermal resistance layer is disposed in the same layer of material as the first or second conductive layers.

10. The housing structure of claim 7, further comprising:

a transparent first base layer, wherein the first base layer is arranged on one side of the first conducting layer far away from the electrochromic layer;

a transparent second base layer, wherein the second base layer is arranged on one side of the second conducting layer far away from the electrochromic layer;

the thermal resistance layer set up in first basic unit with between the second basic unit, just the thermal resistance layer with first conducting layer the second conducting layer the interval sets up between the electrochromic layer.

11. The casing structure of claim 10 wherein an orthographic projection of the thermal resistance layer on the second base layer surrounds the orthographic projection of the first electrically conductive layer, the second electrically conductive layer and the electrochromic layer on the second base layer.

12. The shell structure of claim 10, wherein a filler layer is filled between the first base layer and the second base layer, and the filler layer is an insulating material.

13. The case structure according to claim 1, wherein the temperature detection structure further comprises a detection module electrically connected to the thermal resistance layer, the detection module being capable of detecting the resistance of the thermal resistance layer, and a processing module for acquiring the temperature detected by the thermal resistance layer according to the resistance of the thermal resistance layer.

14. The housing structure of claim 1, wherein the temperature sensing structure is disposed at an edge of the housing.

15. An electronic device, characterized in that it comprises a housing structure according to any one of claims 1-14.

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