CN213313307U - Cold light luminous game controller - Google Patents

Abstract

The utility model discloses a cold light luminous game controller, including controller body and the illuminator of setting on the controller body, illuminator includes the controller face-piece, pattern identification unit and luminous dope layer are by lower supreme surface of setting gradually at the controller face-piece, luminous dope layer includes by lower supreme insulating coating who sets gradually, bottom electrode coating, luminescent material coating, top electrode coating and encapsulated coating, insulating coating sets up the surface at pattern identification unit, bottom electrode coating and top electrode coating respectively with controller body electric connection. The utility model discloses can make the user when using game controller, see cold light luminous effect at game controller's position that is provided with illuminator, richen game controller's visual effect, promote user's recreation and experience and feel.

Description

Cold light luminous game controller

Technical Field

The utility model relates to a game controller technical field, specific theory relates to cold light luminous game controller.

Background

Along with the popularization of games, people have higher and higher requirements on game experience, and the luminous function of the gamepad not only enables the gamepad to be more attractive, but also can enhance the game experience effect. However, most of game handles on the market emit light by lighting the LED lamps through keys, so that the luminous effect of the handle part is realized, but the mode has a complex structure, a small luminous area, luminous patterns cannot be replaced, and the product universality is not strong.

The above disadvantages need to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a cold light luminous game controller.

The utility model discloses technical scheme as follows:

the cold light luminous game controller is characterized by comprising a controller body and a luminous device arranged on the controller body, wherein the luminous device comprises a controller surface shell, a pattern identification unit and a luminous coating layer, the pattern identification unit and the luminous coating layer are sequentially arranged on the surface of the controller surface shell from bottom to top,

the luminous coating layer comprises an insulating coating, a bottom electrode coating, a luminous material coating, a top electrode coating and an encapsulation coating which are sequentially arranged from bottom to top, the insulating coating is arranged on the surface of the pattern identification unit, and the bottom electrode coating and the top electrode coating are respectively and electrically connected with the controller body.

According to the above scheme the utility model discloses, its characterized in that, luminous dope layer still includes the dielectric coating, the dielectric coating sets up luminous material coating with between the bottom electrode coating.

Further, the dielectric coating is barium titanate paint, and is coated on the bottom electrode coating to form an insulating dielectric layer.

Furthermore, the luminescent material coating is fluorescent paint which is coated on the dielectric coating to form a luminescent fluorescent layer.

According to the utility model discloses of above-mentioned scheme, its characterized in that, insulating coating is insulating paint, scribbles on the pattern mark unit, forms the insulating layer.

According to the utility model discloses of above-mentioned scheme, its characterized in that, bottom electrode coating is conductive paint, scribbles on the insulating coating, forms the bottom electrode layer.

According to the utility model discloses of above-mentioned scheme, its characterized in that, top electrode coating is transparent conductive paint, scribbles on the luminescent material coating, forms top transparent electrode layer.

According to above-mentioned scheme the utility model discloses, a serial communication port, top electrode coating is for scribbling ITO transparent conductive coating's transparent PET piece, transparent PET piece sets up on the luminescent material coating, form top transparent electrode layer.

According to the utility model discloses of above-mentioned scheme, its characterized in that, the encapsulation coating is transparent insulating paint, scribbles on the top electrode coating, form transparent insulating layer.

According to the above scheme the utility model discloses, its beneficial effect lies in:

the utility model can make the user see the cold light luminous effect at the position of the game controller provided with the luminous device when using the game controller, thus enriching the visual effect of the game controller and improving the game experience of the user; the light-emitting device is formed by various light-emitting coatings, has simple structure and convenient operation, can be applied to other products, and is favorable for being widely popularized and used in the market; the luminous patterns can be replaced according to customer requirements, and universality is high.

Drawings

Fig. 1 is a schematic structural view of a light emitting device of the present invention;

in the figure, 1, a controller panel; 2. a pattern identification unit; 3. an insulating coating; 4. a bottom electrode coating; 5. a dielectric coating; 6. a luminescent material coating; 7. a top electrode coating; 8. and (5) encapsulating the coating.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1, a cold light luminous game controller comprises a controller body and a light emitting device arranged on the controller body, wherein the light emitting device comprises a controller surface shell 1, a pattern identification unit 2 and a luminous coating layer, and the pattern identification unit 2 and the luminous coating layer are sequentially arranged on the surface of the controller surface shell 1 from bottom to top.

The light-emitting coating layer comprises an insulating coating 3, a bottom electrode coating 4, a dielectric coating 5, a light-emitting material coating 6, a top electrode coating 7 and an encapsulation coating 8 which are sequentially arranged from bottom to top, the insulating coating 3 is arranged on the surface of the pattern identification unit 2, the bottom electrode coating 4 and the top electrode coating 7 are respectively electrically connected with the controller body, the controller body provides alternating current signals for the bottom electrode coating 4 and the top electrode coating 7, so that alternating current signals generate an alternating current electromagnetic field between the bottom electrode coating 4 and the top electrode coating 7, the dielectric coating 5 further enhances the alternating current electromagnetic field, and the light-emitting material coating 6 is excited under the action of the alternating current electromagnetic field to emit light.

In this embodiment, the insulating coating 3 is an insulating paint, and is coated on the pattern unit 2 to form an insulating layer. The insulating layer is arranged between the bottom electrode coating 4 and the pattern identification unit 2 and plays an insulating role.

In this embodiment, the bottom electrode coating 4 is a conductive paint, which is applied on the insulating coating 3 to form a bottom electrode layer, which serves as a bottom electrode of the light emitting device. Preferably, the conductive coating is a silver material having good adhesion to the ITO-coated transparent conductor and the ITO-uncoated transparent PET sheet.

In this embodiment, the dielectric coating 5 acts as an insulating barrier for the bottom electrode coating 4 and the top electrode coating 7. The dielectric coating 5 has unique electromagnetic polarization properties, and when an alternating current signal is present between the bottom electrode coating 4 and the top electrode coating 7, the dielectric coating 5 enhances the alternating current electromagnetic field therebetween, so that the alternating current signal generates an electric field or charge between the bottom electrode coating 4 and the top electrode coating 7 to better excite the luminescent material coating 6 to emit light.

Preferably, the dielectric coating 5 is a barium titanate paint, which is applied on the bottom electrode coating 4 to form an insulating dielectric layer. The purpose of using barium titanate paint for the dielectric coating 5 is to determine the brightness and the lifetime of the light-emitting device according to the different sizes of barium titanate pigment particles and the different thicknesses of the screen printing.

In this embodiment, the luminescent material coating 6 is a fluorescent paint, and is coated on the dielectric coating 5 to form a luminescent fluorescent layer. The light-emitting fluorescent layer is excited under the action of the alternating current electromagnetic field to emit light. By replacing different fluorescent paints, the light-emitting device can obtain different colors of light-emitting effects.

In this embodiment, the top electrode coating 7 is a transparent PET sheet coated with ITO transparent conductive paint, which is disposed on the luminescent material coating 6 to form a top transparent electrode layer serving as a top electrode of the light emitting device. The transparent PET sheet is not only an electrode support layer but also a light transmitting layer transmitting fluorescence and a protective layer of the luminescent material coating layer 6.

In another embodiment, the top electrode coating 7 is a transparent conductive paint, which is applied on the luminescent material coating 6 to form a top transparent electrode layer, which serves as the top electrode of the light emitting device.

In this embodiment, the encapsulating coating 8 is a transparent insulating paint, and is coated on the top electrode coating 7 to form a transparent insulating layer. The coating is transparent to light, can enable a user to see the luminous effect of the surface shell, and can play a role in protecting a luminous device.

In this embodiment, the bottom electrode coating 4 and the top electrode coating 7 are connected to the ac power supply terminals in the controller body through conductive members, respectively. When energized, the controller body provides an alternating current signal to the bottom electrode coating 4 and the top electrode coating 7 such that the alternating current signal generates an alternating electromagnetic field between the bottom electrode coating 4 and the top electrode coating 7.

In this embodiment, the surface of the controller panel 1 is the surface of any object that needs to emit light, such as the controller panel 1, the surface of the handle, and other positions, even other products, and this is not limited by the present utility; the surface of the object can be conductive or insulating, can be transparent or opaque, and does not influence the luminous effect.

In this embodiment, the pattern identification unit 2 is a pattern that needs to emit light and is arranged on the surface of the controller panel 1, so that different patterns can be made according to the requirements of customers, and the universality is high.

The working principle is as follows:

after being electrified, the controller body provides alternating current signals for the bottom electrode coating 4 and the top electrode coating 7, so that the alternating current signals generate an alternating current electromagnetic field between the bottom electrode coating 4 and the top electrode coating 7; the dielectric coating 5 can enhance the alternating electromagnetic field, and an electric field or charge is formed between the bottom electrode coating 4 and the top electrode coating 7; the light-emitting fluorescent layer is excited under the action of an alternating current electromagnetic field to emit light; the emitted light passes through the top electrode coating 7, which is transparent to light, to the encapsulating coating 8, and the end user can see the controller panel 1 glowing since the encapsulating coating 8 is also transparent to light.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (9)

1. A cold light luminous game controller is characterized by comprising a controller body and a luminous device arranged on the controller body, wherein the luminous device comprises a controller surface shell, a pattern identification unit and a luminous coating layer, the pattern identification unit and the luminous coating layer are sequentially arranged on the surface of the controller surface shell from bottom to top,

the luminous coating layer comprises an insulating coating, a bottom electrode coating, a luminous material coating, a top electrode coating and an encapsulation coating which are sequentially arranged from bottom to top, the insulating coating is arranged on the surface of the pattern identification unit, and the bottom electrode coating and the top electrode coating are respectively and electrically connected with the controller body.

2. The luminescent game controller of claim 1, wherein the luminescent paint layer further comprises a dielectric coating disposed between the luminescent material coating and the bottom electrode coating.

3. The luminescent game controller of claim 2, wherein the dielectric coating is a barium titanate coating applied over the bottom electrode coating to form an insulating dielectric layer.

4. The luminescent game controller of claim 3 wherein the luminescent material coating is a fluorescent coating applied to the dielectric coating to form a luminescent phosphor layer.

5. The luminescent game controller of claim 1, wherein the insulating coating is an insulating paint applied to the pattern unit to form an insulating layer.

6. The luminescent game controller of claim 1 wherein the bottom electrode coating is a conductive paint applied over the insulating coating to form a bottom electrode layer.

7. The luminescent game controller of claim 1, wherein the top electrode coating is a transparent conductive paint applied over the luminescent material coating to form a top transparent electrode layer.

8. The luminescent game controller of claim 1, wherein the top electrode coating is a transparent PET sheet coated with ITO transparent conductive paint, the transparent PET sheet being disposed on the luminescent material coating to form a top transparent electrode layer.

9. The luminescent game controller of claim 1, wherein the encapsulating coating is a transparent insulating paint applied over the top electrode coating to form a transparent insulating layer.

Images