CN218998340U - Infrared game control system - Google Patents

Abstract

The utility model discloses an infrared game control system, which comprises a game controller and a lamp control device; the game controller comprises a shell and an internal component, wherein the internal component comprises a first main control chip, an input circuit and an infrared emission circuit, and the input circuit and the infrared emission circuit are respectively and electrically connected with the first main control chip; the lamp control device comprises a second main control chip, a first driving circuit, a first light emitting component and an infrared receiving circuit, wherein the first driving circuit and the infrared receiving circuit are respectively and electrically connected with the second main control chip, the first driving circuit is further electrically connected with the first light emitting component, and the infrared receiving circuit is further in wireless connection with the infrared emitting circuit. The game controller of the utility model supports the infrared communication function, and expands the function of the game controller, so that the game controller can not only control games, but also be used as an infrared remote controller.

Description

Infrared game control system

Technical Field

The utility model relates to the technical field of game equipment, in particular to an infrared game control system.

Background

The game controller is a common part of an electronic game machine, and can realize the control of the game virtual characters by operating key control components such as buttons, triggers and the like on a panel of the game controller. The game controller in the current market has single function, can only control virtual roles of the game by operating button control components such as buttons and triggers on a panel of the game controller, does not support an infrared communication function, cannot be used as an infrared remote controller, and cannot control the lamp effect of external equipment in an infrared mode.

Disclosure of Invention

The utility model provides an infrared game control system, which aims to solve the problems that a game controller in the prior art has single function, does not support an infrared communication function, cannot be used as an infrared remote controller and cannot control the light effect of external equipment in an infrared mode.

The technical scheme of the utility model is as follows:

an infrared game control system comprises a game controller and a lamp control device;

the game controller comprises a shell and an internal component, wherein the internal component comprises a first main control chip, an input circuit and an infrared emission circuit, and the input circuit and the infrared emission circuit are respectively and electrically connected with the first main control chip;

the lamp control device comprises a second main control chip, a first driving circuit, a first light emitting component and an infrared receiving circuit, wherein the first driving circuit and the infrared receiving circuit are respectively and electrically connected with the second main control chip, the first driving circuit is further electrically connected with the first light emitting component, and the infrared receiving circuit is further in wireless connection with the infrared emitting circuit.

According to the infrared game control system of the scheme, the internal component further comprises an infrared mode switch key circuit, and the infrared mode switch key circuit is electrically connected with the first main control chip.

According to the infrared game control system of the above scheme, the first light emitting component comprises a plurality of first RGB lamps, and the plurality of first RGB lamps are respectively and electrically connected with the first driving circuit.

According to the infrared game control system, the internal assembly further comprises a second driving circuit and a second light-emitting assembly, and the second light-emitting assembly is electrically connected with the first main control chip through the second driving circuit.

Further, in one embodiment, the internal component further includes a circuit board, the housing includes a bottom shell, a surface shell, and a light guide shell disposed between the bottom shell and the surface shell, the light guide shell is disposed above the circuit board, the second light emitting component includes an optical fiber line light bar disposed around an edge of the bottom shell and a plurality of second RGB lights disposed on the circuit board, and the optical fiber line light bar and the plurality of second RGB lights are respectively electrically connected with the second driving circuit.

Further, a plurality of light guide holes and key position protruding parts are formed in the light guide shell, and after the light guide shell is buckled with the face shell, the key position protruding parts penetrate through corresponding key hole positions on the face shell and protrude out of the face shell.

Further, in another embodiment, the internal assembly further includes a circuit board, the housing includes a bottom shell made of a light-transmitting material and a top shell, the second light-emitting assembly includes a plurality of second RGB lamps disposed on the circuit board, and the plurality of second RGB lamps are electrically connected to the second driving circuit respectively.

According to the infrared game control system, the input circuit comprises a rocker input circuit, a function key input circuit and a trigger input circuit, and the rocker input circuit, the function key input circuit and the trigger input circuit are respectively and electrically connected with the first main control chip.

According to the infrared game control system of the scheme, the infrared emission circuit comprises an infrared emission diode IR1, an infrared emission diode IR2, a triode Q5, a resistor R1, a resistor R2 and a resistor R3, wherein two ends of the infrared emission diode IR1 are respectively electrically connected with a power supply end and one end of the resistor R1, two ends of the infrared emission diode IR2 are respectively electrically connected with the power supply end and one end of the resistor R2, the other end of the resistor R1 and the other end of the resistor R2 are respectively electrically connected with a c electrode of the triode Q5, an e electrode of the triode Q5 is grounded, and a b electrode of the triode Q5 is electrically connected with the first main control chip after passing through the resistor R3.

According to the infrared game control system, the internal component further comprises a USB input circuit, the USB input circuit is electrically connected with the first main control chip, and the game controller is electrically connected with the game host/PC through the USB input circuit.

According to the infrared game control system, the internal component further comprises an audio decoding circuit and an audio output circuit, and the audio decoding circuit and the audio output circuit are respectively and electrically connected with the first main control chip.

According to the infrared game control system, the lamp control device further comprises a pickup and an amplifying circuit, and the pickup is electrically connected with the second main control chip through the amplifying circuit.

According to the utility model of the scheme, the beneficial effects of the utility model are as follows:

1. the game controller is added with an infrared emission circuit, so that the game controller supports an infrared communication function, the function of the game controller is expanded, the game controller can not only control a game, but also be used as an infrared remote controller, and the light-emitting component of the light control device is controlled to emit light in an infrared remote control mode so as to obtain different light effects and promote user experience;

2. the lamp control device is used as auxiliary equipment of the game controller and used for switching the environmental lamp effect at any time, so that the immersive experience of a user is enhanced;

3. the game controller is added with the luminous component, so that the visual effect of the game controller is enriched, and the user has good game immersion.

Drawings

FIG. 1 is a structural frame diagram of an embodiment of the present utility model;

FIG. 2 is a circuit diagram of a first master control chip according to the present utility model;

FIG. 3 is a circuit diagram of an infrared emission circuit according to the present utility model;

FIG. 4 is a structural frame diagram of another embodiment of the present utility model;

FIG. 5 is an exploded view of the structure of the game controller of the present utility model;

FIG. 6 is a schematic diagram of a game controller according to the present utility model.

In the drawing of the figure,

1. a game controller; 101. a first main control chip; 102. a USB input circuit; 103. an input circuit; 104. an infrared emission circuit; 105. an infrared mode switch key circuit; 106. a second driving circuit; 107. a second light emitting component; 1071. an optical fiber wire lamp strip; 1072. a second RGB lamp; 108. a circuit board; 109. a bottom case; 110. a face shell; 1101. a key hole site; 111. a light guide case; 1111. a light guide hole; 1112. a key position protrusion; 112. an audio decoding circuit; 113. an audio output circuit;

2. a lamp control device; 201. a second main control chip; 202. a first driving circuit; 203. a first light emitting component; 204. an infrared receiving circuit; 205. a sound pickup; 206. an amplifying circuit;

3. game host/PC.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments.

It should be noted that, the terms "disposed," "connected," and the like should be understood in a broad sense, and for example, may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The orientations or positions indicated by the terms "upper", "lower", "bottom", "top", etc. are orientations or positions based on the orientation or position shown in the drawings, are for convenience of description only, and are not to be construed as limiting the present technical solution. The terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "a plurality of" is two or more, unless specifically defined otherwise. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.

Referring to fig. 1, the present embodiment provides an infrared game control system, which includes a game controller 1 and a light control device 2.

The game controller 1 comprises a shell and internal components, wherein the internal components comprise a first main control chip 101, a USB input circuit 102, an input circuit 103 and an infrared emission circuit 104, the USB input circuit 102, the input circuit 103 and the infrared emission circuit 104 are respectively and electrically connected with the first main control chip 101, and the game controller 1 is electrically connected with a game host/PC 3 through the USB input circuit 102 to realize communication with the game host/PC 3; the game controller 1 sends an infrared remote control signal to the lamp control device 2 through the infrared emission circuit 104, so as to control the lamp effect of the lamp control device 2.

Referring to fig. 2 and 3, specifically, the infrared emission circuit 104 includes an infrared emission diode IR1, an infrared emission diode IR2, a triode Q5, a resistor R1, a resistor R2, and a resistor R3, wherein two ends of the infrared emission diode IR1 are respectively electrically connected with a power supply end and one end of the resistor R1, two ends of the infrared emission diode IR2 are respectively electrically connected with the power supply end and one end of the resistor R2, the other end of the resistor R1 and the other end of the resistor R2 are respectively electrically connected with a c electrode of the triode Q5, an e electrode of the triode Q5 is grounded, and a b electrode of the triode Q5 is electrically connected with a pin corresponding to the first main control chip 101 after passing through the resistor R3. The resistor R1, the resistor R2 and the resistor R3 are used for limiting current and play a role of a protection circuit. When in operation, the first main control chip 101 receives the key signal input by the input circuit 103, and outputs a high-level signal to turn on the triode Q5, so that the infrared emission diode IR1 and the infrared emission diode IR2 are turned on.

The lamp control device 2 comprises a second main control chip 201, a first driving circuit 202, a first light emitting component 203 and an infrared receiving circuit 204, wherein the first driving circuit 202 and the infrared receiving circuit 204 are respectively and electrically connected with the second main control chip 201, the first driving circuit 202 is further electrically connected with the first light emitting component 203, and the infrared receiving circuit 204 is further wirelessly connected with the infrared emitting circuit 104. The lamp control device 2 receives an infrared remote control signal sent by the game controller 1 through the infrared receiving circuit 204, and transmits the infrared remote control signal to the second main control chip 201, the second main control chip 201 sends a corresponding control instruction to the first driving circuit 202 according to the infrared remote control signal, and the first driving circuit 202 controls the first light emitting component 203 to emit light according to the control instruction.

According to the technical scheme, the infrared emission circuit 104 is added, so that the game controller 1 supports an infrared communication function, the function of the game controller 1 is expanded, the game controller 1 can control games and can be used as an infrared remote controller, and the light-emitting component of the light control device 2 is controlled to emit light in an infrared remote control mode, so that different light effects are obtained, and the user experience is improved; the light control device 2 is used as auxiliary equipment of the game controller 1 and used for switching environment light effects at any time, so that the immersive experience of a user is enhanced.

Referring to fig. 1, in one embodiment, the internal components further include an infrared mode switch key circuit 105, where the infrared mode switch key circuit 105 is electrically connected to the first main control chip 101, and the infrared mode switch key circuit 105 is configured to connect to an infrared mode switch key and send a corresponding control signal to the first main control chip 101 according to an operation of pressing the infrared mode switch key by a user, so that the game controller 1 enters/exits the infrared mode. After the game controller 1 enters the infrared mode, different infrared code values are set for each key of the game controller 1, each infrared code value corresponds to different light effects, and at the moment, the game controller 1 can remotely control the light effects of the light control device 2 by pressing different keys relative to an infrared remote controller.

In one embodiment, the first light emitting component 203 includes a plurality of first RGB lamps, and the plurality of first RGB lamps are electrically connected to the first driving circuit 202 respectively.

The lamp control device 2 controls the working principle of the self lamp effect: the lamp control device 2 receives an infrared remote control signal containing RGB color data sent by the game controller 1 through the infrared receiving circuit 204, transmits the infrared remote control signal to the second main control chip 201, and the second main control chip 201 sets R, G, B color of the first driving circuit 202 according to the infrared remote control signal, including RGB lamp color, brightness, on-off and corresponding conversion time, and outputs a corresponding RGB color signal to the first RGB lamp, thereby realizing the dazzling lamp effect of the lamp control device 2. The light effect includes monochromatic, polychromatic, breathing, flow rate light effect, etc., and the utility model is not limited thereto.

It should be understood that, the first driving circuit 202 controls the color, brightness, on/off and corresponding switching time of the first RGB lamps, so as to implement single color, multiple color, respiration, flow rate, etc. as is well known in the art, and the detailed description of the implementation of the present utility model is omitted.

Referring to fig. 4 to 6, in one embodiment, the internal components further include a second driving circuit 106, a second light emitting component 107, and a circuit board 108, where the second light emitting component 107 is electrically connected to the first main control chip 101 through the second driving circuit 106. The casing includes drain pan 109, face-piece 110 and set up the light guide shell 111 between drain pan 109 and face-piece 110, and light guide shell 111 sets up in the top of circuit board 108, is provided with a plurality of light guide holes 1111 and key position bellying 1112 on the light guide shell 111, and after light guide shell 111 and face-piece 110 lock, key position bellying 1112 passed the button hole site 1101 that corresponds on the face-piece 110, and the protrusion is in face-piece 110. The second light emitting assembly 107 includes an optical fiber wire light bar 1071 disposed around an edge of the bottom case 109 and a plurality of second RGB lights 1072 disposed on the circuit board 108, where the optical fiber wire light bar 1071 and the plurality of second RGB lights 1072 are electrically connected to the second driving circuit 106, respectively. According to the scheme of the embodiment, the second light-emitting component 107 is added, the face shell 110 is partially light-transmitting structure and the light guide shell 111 are adopted, the optical fiber wire light bar 1071 and the second RGB light 1072 are started, so that light transmission of the key position, the rocker position, the handle edge position and the like of the game controller 1 can be achieved, the visual effect of the game controller 1 is enriched, and the user game immersion feeling is good.

The game controller 1 controls the working principle of the self light effect: the game controller 1 sets the R, G, B color of the second driving circuit 106 through the first main control chip 101, including the color, brightness, on-off state, corresponding conversion time and the like of the RGB lamps, and outputs corresponding RGB color signals to the second RGB lamps 1072, thereby realizing the colorful lamp effect of the game controller 1. The light effect includes monochromatic, polychromatic, breathing, flow rate light effect, etc., and the utility model is not limited thereto. Each key of the game controller 1 is provided with different light effects, such as cross key multicolor circulation, rocker brightness adjustment, right rocker timing closing of the light effect, ABXY keys respectively corresponding to the single-color light effect, and the like, and the game controller 1 can trigger the corresponding light effect by pressing the corresponding key.

It should be understood that setting different light effects for each key and controlling the color, brightness, on-off and corresponding conversion time of the second RGB lamp 1072 by the second driving circuit 106, so as to realize single color, multiple color, respiration, flow rate light effects and the like are all mature technologies in the prior art, and the detailed description of the present utility model is omitted.

Further, in an embodiment, the second light emitting component 107 may also switch different light effects according to the game scenario, that is, after the first main control chip 101 obtains the game scenario of the game host/PC 3 through the USB input circuit 102, a corresponding control signal is sent to the second light emitting component 107, so that the second light emitting component 107 is switched to a corresponding light effect, and the user experience is improved. It should be understood that the light emitting component switches different light effects according to the game scene to be the prior art, and the specific implementation process is not described in detail in the present utility model.

In another embodiment, the internal components further include a second driving circuit 106, a second light emitting component 107, and a circuit board 108, where the second light emitting component 107 is electrically connected to the first main control chip 101 through the second driving circuit 106. The housing includes a bottom shell 109 and a surface shell 110 made of transparent materials, the second light emitting assembly 107 includes a plurality of second RGB lamps 1072 disposed on the circuit board 108, and the plurality of second RGB lamps 1072 are electrically connected to the second driving circuit 106 respectively. In the solution of the above embodiment, the second light emitting component 107 is added, and the bottom shell 109 and the face shell 110 are made of light-transmitting materials, so that the second RGB lamp 1072 is started to light up the inside of the game controller 1, enrich the visual effect of the game controller 1, and make the user feel well immersed in the game.

In one embodiment, the input circuit 103 includes a rocker input circuit, a function key input circuit, and a trigger input circuit, which are electrically connected to the first main control chip 101, respectively. The rocker input circuit is used for connecting the left rocker and the right rocker and outputting corresponding key signals according to the operation of operating the left rocker and the right rocker by a user; the function key input circuit is used for connecting the function keys and outputting corresponding key signals according to the operation of pressing the function keys by a user; the trigger input circuit is used for connecting the left trigger and the right trigger and outputting corresponding key signals according to the operation of the left trigger and the right trigger pressed by a user.

Referring to fig. 4, in one embodiment, the internal components further include an audio decoding circuit 112 and an audio output circuit 113, the audio decoding circuit 112 and the audio output circuit 113 are electrically connected to the first main control chip 101, respectively, and the game controller 1 is connected to the earphone through the audio output circuit 113. Wherein the audio decoding circuit 112 is used for processing the audio signal sent from the game host/PC 3, and the audio output circuit 113 is used for sending the processed audio signal to the earphone.

Referring to fig. 4, in one embodiment, the lamp control device 2 further includes a pickup 205 and an amplifying circuit 206, and the pickup 205 is electrically connected to the second main control chip 201 through the amplifying circuit 206. The lamp control device 2 converts external sound into an analog signal through the sound pick-up 205, amplifies the analog signal converted by the sound pick-up 205 through the amplifying circuit 206, converts the amplified analog signal into a digital signal through the second main control chip 201, generates a corresponding control instruction according to the digital signal, and the first driving circuit 202 controls the first light emitting component 203 to emit light according to the control instruction. According to the technical scheme, the lamp control device 2 can control the lamp effect of the first light emitting component 203 according to the sound/external sound externally emitted by the game equipment, and the lamp effect generated by the lamp control device 2 is different due to the fact that the background music of each game scene is different, so that the on-site atmosphere of the game is improved, immersive experience is improved, and user experience is improved.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the implementation of the utility model is not limited by the above manner, and it is within the scope of the utility model to apply the inventive concept and technical solution to other situations as long as various improvements made by the inventive concept and technical solution are adopted, or without any improvement.

Claims (10)

1. An infrared game control system is characterized by comprising a game controller and a lamp control device;

the game controller comprises a shell and an internal component, wherein the internal component comprises a first main control chip, an input circuit and an infrared emission circuit, and the input circuit and the infrared emission circuit are respectively and electrically connected with the first main control chip;

the lamp control device comprises a second main control chip, a first driving circuit, a first light emitting component and an infrared receiving circuit, wherein the first driving circuit and the infrared receiving circuit are respectively and electrically connected with the second main control chip, the first driving circuit is further electrically connected with the first light emitting component, and the infrared receiving circuit is further in wireless connection with the infrared emitting circuit.

2. The infrared game control system of claim 1, wherein the internal components further comprise an infrared mode switch key circuit, the infrared mode switch key circuit being electrically connected to the first host chip.

3. The infrared game control system of claim 1, wherein the first light emitting assembly comprises a plurality of first RGB lights, and the plurality of first RGB lights are electrically connected to the first driving circuit, respectively.

4. The infrared game control system of claim 1, wherein the internal components further comprise a second drive circuit and a second light emitting component, the second light emitting component being electrically connected to the first host chip through the second drive circuit.

5. The infrared game control system of claim 4, wherein the internal assembly further comprises a circuit board, the housing comprises a bottom shell, a face shell and a light guide shell disposed between the bottom shell and the face shell, the light guide shell is disposed above the circuit board, the second light emitting assembly comprises a fiber optic light bar disposed around an edge of the bottom shell and a plurality of second RGB lights disposed on the circuit board, and the fiber optic light bar and the plurality of second RGB lights are electrically connected to the second driving circuit, respectively.

6. The infrared game control system of claim 4, wherein the internal assembly further comprises a circuit board, the housing comprises a bottom shell and a top shell made of light-transmitting materials, the second light-emitting assembly comprises a plurality of second RGB lamps arranged on the circuit board, and the second RGB lamps are respectively electrically connected with the second driving circuit.

7. The infrared game control system of claim 1, wherein the input circuit comprises a rocker input circuit, a function key input circuit, and a trigger input circuit, the rocker input circuit, the function key input circuit, and the trigger input circuit being electrically connected to the first host chip, respectively.

8. The infrared game control system according to claim 1, wherein the infrared emission circuit comprises an infrared emission diode IR1, an infrared emission diode IR2, a triode Q5, a resistor R1, a resistor R2 and a resistor R3, wherein two ends of the infrared emission diode IR1 are respectively and electrically connected with a power supply end and one end of the resistor R1, two ends of the infrared emission diode IR2 are respectively and electrically connected with a power supply end and one end of the resistor R2, the other end of the resistor R1 and the other end of the resistor R2 are respectively and electrically connected with a c electrode of the triode Q5, an e electrode of the triode Q5 is grounded, and a b electrode of the triode Q5 is electrically connected with the first master chip after passing through the resistor R3.

9. The infrared game control system of claim 1, wherein the internal components further comprise a USB input circuit electrically connected to the first host chip, and the game controller is electrically connected to a game host/PC via the USB input circuit.

10. The infrared game control system of claim 1, wherein the light control device further comprises a pickup and an amplifying circuit, and the pickup is electrically connected with the second main control chip through the amplifying circuit.

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