CN110681150A

CN110681150A - Virtual reality game system and virtual reality game implementation method

Info

Publication number: CN110681150A
Application number: CN201810732397.1A
Authority: CN
Inventors: 龙寿伦; 李耀辉; 熊旭
Original assignee: Shenzhen Polydol New Technology Co Ltd
Current assignee: Shenzhen Polydol New Technology Co Ltd
Priority date: 2018-07-05
Filing date: 2018-07-05
Publication date: 2020-01-14
Anticipated expiration: 2038-07-05
Also published as: CN110681150B

Abstract

The embodiment of the application provides a virtual reality game system and a virtual reality game implementation method. The virtual reality display end can synchronously run a corresponding game application program according to a starting instruction generated by the operation of a user on the handheld mobile control end, load game data, render a game picture according to the game data and output the game picture to a left display screen and a right display screen of the virtual reality display end; in addition, the handheld mobile control end generates an operation instruction according to the operation of the thumb of the user during the game running, then the operation instruction is sent to the virtual reality display end, the virtual reality display end determines an operation execution object in the game picture according to the operation instruction, corresponding object operation is executed on the operation execution object, and the real-time game picture is generated by combining game data; therefore, the process that the power consumption of the handheld mobile control end is increased in the game is transferred to the virtual reality display end for execution, and therefore the temperature of the handheld mobile control end can be reduced.

Description

Virtual reality game system and virtual reality game implementation method

Technical Field

The invention relates to the technical field of virtual reality, in particular to a virtual reality game system and a virtual reality game implementation method.

Background

With the development of semiconductor, mobile internet and other technologies, a mobile phone has been changed from a traditional communication device to a multimedia mobile terminal integrating communication, social contact, information, video and entertainment. With the increasing hardware performance of mobile phones, mobile phones are also capable of implementing high-quality large-scale games like conventional PCs and game machines. Due to the portability and the operation flexibility of the mobile phone, a user can play games anytime and anywhere only by taking out the mobile phone and directly operating the mobile phone on game pictures displayed on a display screen of the mobile phone.

In the prior art, a use mode combining a mobile phone and a virtual reality device appears. Virtual reality (virtual reality) technology, which is called virtual technology for short, is a technology for simulating and generating a virtual space by using a computer technology and providing immersion experience in the virtual space, integrates computer graphics, computer simulation, artificial intelligence, display, network parallel processing and other technologies, and is an advanced simulation technology. The virtual reality equipment is human-computer interaction equipment applying a virtual reality technology, and common virtual reality equipment, such as glasses-shaped virtual reality equipment, can isolate human bodies from external senses such as vision and hearing and guide users to generate immersive virtual reality experience.

The prior art allows the user to connect the mobile phone with the virtual reality glasses, so that the game pictures of the mobile phone are output to the virtual reality glasses for display.

However, in the prior art, a large amount of system resources are consumed by the mobile phone to complete data processing and rendering of game pictures in a game, so that the power consumption of the mobile phone is large and the mobile phone generates heat seriously when the game is run, the endurance time of the mobile phone is reduced due to the small size and limited battery capacity of the mobile phone, the loss of the battery of the mobile phone is accelerated after a long time, the service life of the battery of the mobile phone is shortened, and the service life of semiconductor components inside the mobile phone is also influenced when the mobile phone runs at a high temperature for a long time. In addition, when the mobile phone is connected with the virtual reality glasses, the mobile phone also needs to consume extra system resources for inputting game pictures adapted to the virtual reality glasses, so that the power consumption and the heating condition of the mobile phone are further aggravated, the endurance time of the mobile phone is reduced, and the game experience of a user when the user wears the virtual reality glasses to play a mobile phone game is seriously influenced.

Disclosure of Invention

The embodiment of the application provides a virtual reality game system and a virtual reality game implementation method, and aims to solve the problems in the prior art.

In a first aspect, an embodiment of the present application provides a virtual reality game system, which includes a rectangular handheld mobile control end and a virtual reality display end, where the handheld mobile control end and the virtual reality display end are coupled and connected in a wired or wireless manner;

the handheld mobile control end comprises a shell with a containing cavity, a display touch module, a battery, a communication module, a processor and a control transmission module, wherein the battery, the communication module, the processor and the control transmission module are arranged in the containing cavity; the display touch module is positioned at the opening of the accommodating cavity of the shell and seals the opening of the accommodating cavity;

the virtual reality display end comprises a left display screen, a left optical amplification module, a right display screen, a right optical amplification module, a micro-processing module, a fixed part and a main frame body with a certain accommodating space; the left optical amplification module is arranged in front of the left display screen, the right optical amplification module is arranged in front of the right display screen, the left display screen, the right display screen and the micro-processing module are arranged in the containing space of the main frame body, one end of the left optical amplification module, which is close to the left display screen, is contained in the containing space of the main frame body, the other end of the left optical amplification module protrudes out of the containing space of the main frame body, one end of the right optical amplification module, which is close to the right display screen, is contained in the containing space of the main frame body, and the other end of the right optical amplification module protrudes out of the containing space of the main frame body;

the battery of the handheld mobile control end is used for providing electric energy for the processor, the communication module and the control transmission module;

the communication module of the handheld mobile control end is used for the communication of a user in a non-game state;

the shell of the handheld mobile control end is also used for holding two ends of the shell by two hands of a user in a game state;

the processor of the handheld mobile control end is used for acquiring a starting touch gesture of a user on the display touch module before a game application program is started to generate a starting instruction, running the corresponding game application program according to the starting instruction, and sending the starting instruction to the micro-processing module of the virtual reality display end through the control transmission module, so that the micro-processing module synchronously runs the corresponding game application program;

the control transmission module of the handheld mobile control end is used for acquiring the starting instruction from the processor and sending the starting instruction to the micro-processing module of the virtual reality display end;

the fixing part of the virtual reality display end is used for fixing the main frame body on the head of a user, and one end, away from the left display screen, of the left optical amplification module is matched with the left eye of the user, and one end, away from the right display screen, of the right optical amplification module is matched with the right eye of the user;

the micro-processing module of the virtual reality display end is used for receiving the starting instruction, synchronously starting a game application program corresponding to the starting instruction according to the starting instruction and the handheld mobile control end, loading game data, rendering a game picture according to the game data, outputting the game picture to the left display screen and the right display screen, receiving the game picture sent by the micro-processing module by the left display screen, amplifying a virtual image obtained after the game picture is amplified by the left optical amplification module, presenting the amplified virtual image to the left eye of a user, receiving the game picture sent by the micro-processing module by the right display screen, amplifying the virtual image obtained after the game picture is amplified by the right optical amplification module, and presenting the amplified virtual image to the right eye of the user;

the processor of the handheld mobile control end is further used for acquiring a first operation gesture of a first thumb of a user on a first touch control key of the display touch module to generate a first operation instruction and a second operation gesture of a second thumb of the user on a second touch control key of the display touch module to generate a second operation instruction in real time after a game application program is started, and sending the first operation instruction and the second operation instruction to the micro-processing module of the virtual reality display end through the control transmission module;

the micro-processing module of the virtual reality display end is further configured to receive the first operation instruction and the second operation instruction, and determine, according to the first operation instruction, an operation execution object in a game picture displayed on the left display screen and the right display screen corresponding to the first operation gesture; and executing the object operation corresponding to the second operation gesture on the operation execution object according to the second operation instruction, generating a real-time game picture by combining game data, outputting the real-time game picture to the left display screen and the right display screen, receiving the real-time game picture sent by the micro-processing module through the left optical amplification module, amplifying the virtual image amplified by the current game picture to present the left eye of the user, receiving the real-time game picture sent by the micro-processing module through the right optical amplification module, and amplifying the virtual image amplified by the current game picture to present the right eye of the user through the right optical amplification module.

Furthermore, the display touch module is rectangular, the positions of the first touch control key and the second touch control key are respectively close to the two wide sides of the display touch module, and the maximum distance from the wide sides is not more than one fourth of the length.

Further, the first operation gesture is used for controlling the position movement of the operation execution object; the second operation gesture is used for adjusting an operation action area operated by the object and adjusting an operation action target object operated by the object, determining an operation action target object operated by the object aiming at the operation action area based on the current position, and operating the object according to the operation execution object.

Further, the handheld mobile control terminal is configured to: and after the starting instruction is sent to the micro-processing module of the virtual reality display end through the control transmission module, the display touch module is turned off until the display touch module receives another screen lightening request.

Further, the virtual reality display terminal is configured to generate uplink online data when a game is run;

the handheld mobile control terminal is configured to: acquiring the uplink online data of the virtual reality display end, and sending the uplink online data to an online server; and receiving downlink online data from the online server and sending the downlink online data to the virtual reality display end.

Further, the virtual reality display end comprises at least one distance sensor, and when a user wears the virtual reality display end, the distance sensor is positioned on one side of the face of the user; the distance sensor is configured to detect the state that the virtual reality display end is worn or taken down by a user, and send the detection result to the handheld mobile control end;

the handheld mobile control terminal is configured to: when the virtual reality display end is in a wearing state, the display touch module is turned off or the brightness of the display touch module is reduced to a preset low value; and when the virtual reality display end is in a take-off state, lightening the display touch module or improving the brightness of the display touch module to a preset high value.

Further, when the handheld mobile control terminal and the virtual reality display terminal are connected by a wired coupling, the virtual reality display terminal is configured to: acquiring the residual electric quantity of the handheld mobile control terminal; and when the residual electric quantity of the handheld mobile control terminal is lower than the preset electric quantity, charging the handheld mobile control terminal.

In a second aspect, an embodiment of the present application provides a virtual reality game implementation method, which is applied to a virtual reality game system provided by the present application, and the method includes:

the handheld mobile control end and the virtual reality display end are coupled and connected in a wired or wireless mode;

the processor of the handheld mobile control end acquires a starting touch gesture of a user on the display touch module before a game application program is started to generate a starting instruction, runs the corresponding game application program according to the starting instruction, and sends the starting instruction to the micro-processing module of the virtual reality display end through the control transmission module;

the micro-processing module of the virtual reality display end receives the starting instruction, synchronously starts a game application program corresponding to the starting instruction according to the starting instruction and the handheld mobile control end, loads game data, renders a game picture according to the game data, and outputs the game picture to a left display screen and a right display screen of the virtual reality display end;

after a game application program is started, a processor of the handheld mobile control end acquires a first operation instruction generated by a first operation gesture of a first thumb of a user on a first touch control key of the display touch module in real time, and a second operation instruction generated by a second operation gesture of a second thumb of the user on a second touch control key of the display touch module in real time, and sends the first operation instruction and the second operation instruction to a micro-processing module of the virtual reality display end through the control transmission module;

a micro-processing module of the virtual reality display end receives the first operation instruction and the second operation instruction, and determines an operation execution object in a game picture displayed by the left display screen and the right display screen corresponding to the first operation gesture according to the first operation instruction; and executing the object operation corresponding to the second operation gesture on the operation execution object according to the second operation instruction, generating a real-time game picture by combining game data, and outputting the real-time game picture to the left display screen and the right display screen.

Further, the method further comprises: and after the starting instruction is sent to the micro-processing module of the virtual reality display end through the control transmission module, the display touch module is turned off until the display touch module receives another screen lightening request.

Further, the method further comprises: the virtual reality display end generates uplink online data when a game is run;

the handheld mobile control end acquires the uplink online data of the virtual reality display end and sends the uplink online data to an online server; and the handheld mobile control end receives downlink online data from the online server and sends the downlink online data to the virtual reality display end.

Further, the virtual reality display terminal comprises at least one distance sensor, and when the virtual reality display terminal is worn by a user, the distance sensor is positioned on one side of the face of the user, and the method further comprises the following steps: the distance sensor detects the state that a user wears or takes off the virtual reality display end, and sends a detection result to the handheld mobile control end; when the virtual reality display end is in a wearing state, the handheld mobile control end extinguishes the display touch module or reduces the brightness of the display touch module to a preset low value; and when the virtual reality display end is in a take-off state, the handheld mobile control end lights the display touch module or improves the brightness of the display touch module to a preset high value.

Further, the method further comprises: when the handheld mobile control terminal is connected with the virtual reality display terminal through wired coupling, the virtual reality display terminal acquires the residual electric quantity of the handheld mobile control terminal; and when the residual electric quantity of the handheld mobile control terminal is lower than the preset electric quantity, charging the handheld mobile control terminal.

According to the technical scheme, the embodiment of the application provides a virtual reality game system and a virtual reality game implementation method, wherein the virtual reality game system comprises a rectangular handheld mobile control end and a virtual reality display end; the handheld mobile control end is coupled with the virtual reality display end in a wired or wireless mode; the virtual reality display end can synchronously run a corresponding game application program according to a starting instruction generated by the operation of a user on the handheld mobile control end, load game data, render a game picture according to the game data and output the game picture to a left display screen and a right display screen of the virtual reality display end; in addition, the handheld mobile control end generates an operation instruction according to the operation of the thumb of the user during the game running, then the operation instruction is sent to the virtual reality display end, the virtual reality display end determines an operation execution object in the game picture according to the operation instruction, corresponding object operation is executed on the operation execution object, and the real-time game picture is generated by combining game data; therefore, the process that the power consumption of the handheld mobile control end is increased in the game is transferred to the virtual reality display end to be executed, so that the temperature of the handheld mobile control end can be reduced, and the endurance time of the handheld mobile control end is prolonged.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any inventive exercise.

Fig. 1 is a block diagram of a virtual reality system according to an embodiment of the present application;

fig. 2 is an exploded view of a handheld mobile terminal according to an embodiment of the present disclosure;

fig. 3 is an exploded view of a virtual reality display end according to an embodiment of the present disclosure;

fig. 4 is a schematic view of a fixing component of a virtual reality display end according to an embodiment of the present disclosure;

fig. 5 is an operation schematic diagram of a display touch module according to an embodiment of the present disclosure;

fig. 6 is a schematic position diagram of a virtual reality display end distance sensor provided in an embodiment of the present application;

fig. 7 is a flowchart of a virtual reality game implementation method provided in an embodiment of the present application;

fig. 8 is a flowchart illustrating processing of online data by a virtual reality game implementation method according to an embodiment of the present disclosure;

fig. 9 is a flowchart illustrating brightness adjustment of a touch module according to an embodiment of the present disclosure;

fig. 10 is a flowchart illustrating charging of a handheld mobile control terminal according to an implementation method of a virtual reality game provided in an embodiment of the present application.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. 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 invention.

Example one

An embodiment of the present application provides a virtual reality game system, fig. 1 is a configuration diagram of a virtual reality system provided in an embodiment of the present application, and as shown in fig. 1, the virtual reality game system includes: the mobile terminal comprises a rectangular handheld mobile control terminal 10 and a virtual reality display terminal 20, wherein the handheld mobile control terminal 10 is coupled with the virtual reality display terminal 20 in a wired or wireless mode.

Fig. 2 is an exploded view of a handheld mobile terminal according to an embodiment of the present disclosure.

As shown in fig. 2, the handheld mobile control terminal 10 includes a housing 11 having a receiving cavity 101, a display touch module 12, a battery 13, a communication module 14, a processor 15, and a control transmission module 16, wherein the battery 13, the communication module 14, the processor 15, and the control transmission module 16 are disposed in the receiving cavity 101; the display touch module 12 is located at an opening of the accommodating cavity 101 of the housing 11, and seals the opening of the accommodating cavity 101.

Fig. 3 is an exploded view of a virtual reality display end according to an embodiment of the present disclosure.

Fig. 4 is a schematic view of a fixing component of a virtual reality display end according to an embodiment of the present application.

As shown in fig. 3 and 4, the virtual reality display end 20 includes a left display screen 21, a left optical magnifying module 22, a right display screen 23, a right optical magnifying module 24, a micro-processing module 25, a fixing member 26, and a main frame 28 having a certain accommodating space 27; the left optical amplification module 22 is arranged in front of the left display screen 21, the right optical amplification module 24 is arranged in front of the right display screen 23, the left display screen 21, the right display screen 23 and the microprocessor module 25 are arranged in the accommodating space 27 of the main frame 28, one end of the left optical amplification module 22 close to the left display screen 21 is accommodated in the accommodating space 27 of the main frame 28, the other end of the left optical amplification module 22 protrudes out of the accommodating space 27 of the main frame 28, one end of the right optical amplification module 24 close to the right display screen 23 is accommodated in the accommodating space 27 of the main frame 28, and the other end of the right optical amplification module 24 protrudes out of the accommodating space 27 of the main frame 28.

The virtual reality display end 20 that this application embodiment provided includes two display screens, is left display screen 21 and right display screen 23 respectively, and every display screen cooperates the formation with its left optics that corresponds and enlarges module 22 and right optics and enlarge module 24 and be used for showing the image of user left and right eyes respectively. The size of left display screen 21 and right display screen 23 can enlarge the size design of module 22 and right optical amplification module 24 according to left optics to make left display screen 21 and right display screen 23 can have higher screen area's utilization ratio, make screen area can be littleer, thereby reduce the weight of virtual reality display end 20, make virtual reality display end 20 more frivolous.

The battery 13 of the handheld mobile control terminal 10 is used for supplying power to the processor 15, the communication module 14 and the control transmission module 16.

The communication module 14 of the handheld mobile control terminal 10 is used for the user to communicate in a non-game state, such as conversation, connection to a wireless WiFi network, data traffic transmission, and the like.

The housing 11 of the handheld mobile control end 10 is also used for a user to hold two ends of the housing 11 with two hands in a game state.

The processor 15 of the handheld mobile control terminal 10 is configured to obtain a start touch gesture of the user on the display touch module 12 before the game application program is started, generate a start instruction, run a corresponding game application program according to the start instruction, and send the start instruction to the microprocessor module 25 of the virtual reality display terminal 20 through the control transmission module 16, so that the microprocessor module 25 synchronously runs the corresponding game application program. The user may execute a preset start touch gesture on the display touch module 12 or click a game icon displayed on the display touch module 12 with a finger; when the processor 15 detects that the touch gesture of the user on the display touch module 12 is a start touch gesture or detects that the user clicks a game icon displayed on the display touch module 12 with a finger, the processor 15 generates a start instruction, starts a corresponding game application program according to the start instruction, sends the start instruction to the microprocessor module 25 of the virtual reality display terminal 20 through the control transmission module 16, and enables the microprocessor module 25 to synchronously run the corresponding game application program, so that the virtual reality display terminal 20 can present game content to the user.

The control transmission module 16 of the handheld mobile control terminal 10 is configured to obtain the start instruction from the processor 15, and send the start instruction to the microprocessor module 25 of the virtual reality display terminal 20. In this application, after the handheld mobile control terminal 10 and the virtual reality display terminal 20 are coupled and connected in a wired or wireless manner, data are sent from the handheld mobile control terminal 10 to the virtual reality display terminal 20, or data received by the handheld mobile control terminal 10 from the virtual reality display terminal 20 are all completed through the control transmission module 16 of the handheld mobile control terminal 10, so that the control transmission module 16 sends the start instruction to the microprocessor module 25 of the virtual reality display terminal 20.

The fixing component of the virtual reality display end 20 is used for fixing the main frame 28 on the head of a user, and making one end of the left optical amplification module 22 far away from the left display screen 21 adapt to the left eye of the user and one end of the right optical amplification module 24 far away from the right display screen 23 adapt to the right eye of the user. In the application, the user executes the touch operation of the game at the handheld mobile control terminal 10, and watches the game picture through the virtual reality display terminal 20 fixed at the head, compared with the game picture displayed on the handheld mobile control terminal 10, the virtual reality display terminal 20 can present a game scene of virtual reality with immersion for the user, so that the game experience of the user is improved.

Micro-processing module 25 of virtual reality display end 20 is used for receiving start instruction, according to start instruction with handheld mobile control end 10 synchronous start the game application that start instruction corresponds, load the recreation data, and according to the recreation picture is played up to the recreation data, will recreation picture output is given left side display screen 21 with right side display screen 23, left side display screen 21 receives the recreation picture that micro-processing module 25 sent passes through left side optical amplification module 22 enlargies the virtual image after the recreation picture enlargies presents for user's left eye, right side display screen 23 receives the recreation picture that micro-processing module 25 sent, and passes through right side optical amplification module 24 enlargies the virtual image after the recreation picture enlargies presents for user's right eye. In the present application, the game picture output by the microprocessor module 25 includes a left-eye picture and a right-eye picture, and the left-eye picture and the right-eye picture together form a virtual reality game picture provided by the virtual reality display terminal 20; micro-processing module 25 sends left eye picture for left display screen 21, and left display screen 21 display screen is passed through left side optics enlarges module 22 and enlargies the virtual image after the recreation picture is enlargied presents for user's left eye, and micro-processing module 25 sends right eye picture for right display screen 23, and left display screen 23 display screen passes through right optics enlarges module 24 and enlargies the virtual image after the recreation picture is enlargied presents for user's right eye.

Fig. 5 is an operation schematic diagram of a display touch module according to an embodiment of the present application.

As shown in fig. 4, the processor 15 of the handheld mobile control terminal 10 is further configured to obtain, in real time, a first operation instruction generated by a first thumb 31 of a user for a first operation gesture of a first touch control key 121 of the display touch module 12 and a second operation instruction generated by a second thumb 32 of the user for a second operation gesture of a second touch control key 122 of the display touch module 12 after the game application is started, and send the first operation instruction and the second operation instruction to the micro processing module 25 of the virtual reality display terminal 20 through the control transmission module 16.

The micro-processing module 25 of the virtual reality display terminal 20 is further configured to receive the first operation instruction and the second operation instruction, and determine, according to the first operation instruction, an operation execution object in the game screen displayed on the left display screen 21 and the right display screen 23 corresponding to the first operation gesture; and executing the object operation corresponding to the second operation gesture on the operation execution object according to the second operation instruction, generating a real-time game picture by combining game data, outputting the real-time game picture to the left display screen 21 and the right display screen 23, receiving the real-time game picture sent by the micro-processing module 25 by the left display screen 21, amplifying a virtual image amplified by the current game picture by the left optical amplification module 22, presenting the virtual image to the left eye of the user, receiving the real-time game picture sent by the micro-processing module 25 by the right display screen 23, and amplifying the virtual image amplified by the current game picture by the right optical amplification module 24, presenting the virtual image to the right eye of the user.

In the prior art, the process of generating an operation instruction according to an operation gesture of a user, determining an operation execution object and an object operation of the operation execution object according to the operation execution, and generating a real-time game picture by combining game data is completed by the processor 15 in the handheld mobile control terminal 10, in the process, the processor 15 performs operations on various game data and renders the game picture, so that the process can lead to accelerated power consumption of the battery 13 of the handheld mobile control terminal 10 in a game, large heat productivity and high temperature of the mobile phone, reduce the endurance time of the mobile phone, influence the game experience of the user, and accelerate aging of devices such as the processor 15 in the handheld mobile control terminal 10.

In the present application, in order to reduce the amount of heat generated by the handheld mobile control terminal 10 during a game, the temperature of the handheld mobile control terminal 10 during the game is reduced. The process of generating an operation instruction according to an operation gesture of a user, determining an operation execution object and an object operation of the operation execution object according to operation execution, and generating a real-time game picture in combination with game data, which is implemented in the mobile control terminal 10 in the prior art, is transferred to the virtual reality display terminal 20. The mobile control terminal 10 only needs to send the instruction to the microprocessor 25 of the virtual reality display terminal 20 through the control transmission module 16, the microprocessor 25 of the virtual reality display terminal 20 receives the first operation instruction and the second operation instruction, determines an operation execution object in the game pictures displayed on the left display screen 21 and the right display screen 23 corresponding to the first operation gesture according to the first operation instruction, executes an object operation corresponding to the second operation gesture on the operation execution object according to the second operation instruction, and generates a real-time game picture by combining game data. Accordingly, the processor 15 in the handheld mobile control terminal 10 does not operate at a high load because it is not performing the above process, and thus does not consume a large amount of power of the battery 13, and does not generate a large amount of heat, so that the temperature of the handheld mobile control terminal 10 is greatly reduced compared to the related art.

In an alternative embodiment, the display touch module 12 is rectangular, and the first touch control key 121 and the second touch control key 122 are respectively located close to two wide sides of the display touch module 12, and the maximum distance from the wide sides is not more than one quarter of the length.

When a user holds the handheld mobile control end 10 to perform game operation, the handheld mobile control end 10 is usually horizontally arranged, and both ends of the handheld mobile control end 10 are held, therefore, the positions of the first touch control key 121 and the second touch control key 122 set in the present application are respectively close to both wide sides of the display touch module 12, and the maximum distance from the wide sides does not exceed one fourth of the length, which can facilitate the user to easily touch the first touch control key 121 and the second touch control key 122 when holding the handheld mobile control end 10 to perform game operation, and at the same time, the area of the handheld mobile control end 10 covered by both hands of the user can be reduced, so that the heat dissipation of the handheld mobile control end 10 is not hindered, thereby reducing the temperature of the handheld mobile control end 10.

In an alternative embodiment, the first operation gesture is used to control the position movement of the operation execution object; the second operation gesture is used for adjusting an operation action area operated by the object and adjusting an operation action target object operated by the object, determining an operation action target object operated by the object aiming at the operation action area based on the current position, and operating the object according to the operation execution object.

The first and second operation gestures of the user may include sliding or clicking in an arbitrary direction along a plane on the first and second

touch control keys

121 and 122 to move the operation execution object in the game screen toward the same sliding direction as the first operation gesture. The operation action area of the object operation refers to an action area of the object operation in the game picture, which is specified by the second operation instruction when the user sends the second operation instruction through the second operation gesture; the operation target object refers to an object that is specified by the second operation command and is operated in the game screen when the user issues the second operation command through the second operation gesture, and the operation target object may be any one or more non-operation execution objects in the game screen or may be the operation execution object itself.

In an alternative embodiment, the handheld mobile control terminal 10 is configured to: after the start instruction is sent to the microprocessor 25 of the virtual reality display terminal 20 through the control transmission module 16, the display touch module 12 is turned off until the display touch module 12 receives another screen-lighting request.

After the control transmission module 16 sends the start instruction to the microprocessor 25 of the virtual reality display terminal 20, the microprocessor 25 of the virtual reality display terminal 20 synchronously starts the game application program corresponding to the start instruction with the handheld mobile control terminal 10 according to the start instruction, loads the game data, and renders the game picture according to the game data. Therefore, the user can see the game picture through the virtual reality display terminal 20, and the user can always wear the virtual reality display terminal 20 in the game without viewing the game picture on the display touch module 12. Therefore, after the control transmission module 16 sends the start instruction to the microprocessor module 25 of the virtual reality display terminal 20, the display touch module 12 is turned off, so that the consumption of electric energy of the handheld mobile control terminal 10 is reduced, the temperature of the handheld mobile control terminal 10 is reduced, and the endurance time of the display touch module 12 is prolonged.

In an alternative embodiment, the virtual reality display 20 is configured to generate the uplink online data while the game is running.

The handheld mobile control terminal 10 is configured to: acquiring the uplink online data of the virtual reality display terminal 20, and sending the uplink online data to an online server; and receiving downlink online data from the online server, and sending the downlink online data to the virtual reality display 20.

When a user experiences an internet online game by using the virtual reality game system provided by the application, the virtual reality game system can generate online data with the internet of things, wherein the online data comprises uplink online data needing to be sent to the internet and downlink online data obtained from the internet. Since the processes of the picture rendering and the data processing of the game in the present application are completed by the microprocessor module 25 in the virtual reality display terminal 20, the uplink online data in the present application is also generated by the microprocessor module 25 in the processes of the picture rendering and the data processing of the game. Therefore, the handheld mobile control end 10 does not participate in the generation process of the uplink online data in the game, and is only used for acquiring the uplink online data of the virtual reality display end and sending the uplink online data to the online server; and receiving the downlink online data from the online server and sending the downlink online data to the virtual reality display terminal 20, thereby reducing the load of the processor 15 of the handheld mobile control terminal 10, reducing the heat productivity of the processor 15, and achieving the purpose of reducing the temperature of the handheld mobile control terminal 10.

Fig. 6 is a schematic position diagram of a virtual reality display end distance sensor according to an embodiment of the present application.

In an alternative embodiment, as shown in fig. 5, the virtual reality display 20 includes at least one distance sensor 29, and when the virtual reality display 20 is worn by the user, the distance sensor 29 is located on the side of the face of the user; the distance sensor 29 is configured to detect the state that the user wears or takes off the virtual reality display terminal 20, and send the detection result to the handheld mobile control terminal 10;

the handheld mobile control terminal 10 is configured to:

when the virtual reality display end 20 is in a wearing state, turning off the display touch module 12 or reducing the brightness of the display touch module 12 to a preset low value; and when the virtual reality display end 20 is in a taken-off state, lighting the display touch module 12 or increasing the brightness of the display touch module 12 to a preset high value.

When a user plays a game, the user can wear or take off the virtual reality display end 20 at any time, when the user wears the virtual reality display end 20, the virtual reality display end 20 provides a game picture for the user, and at the moment, the display touch module 12 is timely turned off or the brightness of the display touch module 12 is timely reduced, so that the power consumption of the handheld mobile control end 10 is saved, the heat productivity of the handheld mobile control end 10 is reduced, the temperature of the handheld mobile control end 10 is reduced, and the endurance time is prolonged; when the user takes off the virtual reality display terminal 20, the display touch module 12 is quickly turned on from the off state or is increased from the low luminance state to the normally visible luminance, so that the user can immediately continue to see the game screen from the display touch module 12.

In an alternative embodiment, when the handheld mobile control terminal 10 and the virtual reality display terminal 20 are connected by a wired coupling, the virtual reality display terminal 20 is configured to:

acquiring the residual electric quantity of the handheld mobile control terminal 10;

and when the remaining power of the handheld mobile control terminal 10 is lower than the preset power, charging the handheld mobile control terminal 10.

In this application, the processor 15 in the handheld mobile control terminal 10 may obtain the remaining power, and send the remaining power information to the virtual reality display terminal 20 through the control transmission module 16. When the virtual reality display terminal 20 determines whether the acquired remaining power is lower than the preset power, if the acquired remaining power is lower than the preset power, the virtual reality display terminal 20 opens a charging channel to charge the handheld mobile control terminal 10.

In the prior art, the performance of mobile devices such as mobile phones which can be used as handheld mobile control terminals 10 is increasing, and the screen is increasing. However, battery technology of mobile devices such as mobile phones has not been greatly improved, which causes that battery power consumption is fast when the mobile devices such as mobile phones run applications with fast power consumption such as games, and user experience is affected. For example, when a user is in a game match, the mobile phone consumes too fast power to cause insufficient battery power, and if the user is not charged in time, the mobile phone may be powered off due to the exhaustion of the battery power, so that the game match of the user is forced to be interrupted. This application leads to the problem that battery power is not enough or even shuts down in order to solve handheld mobile control end 10 power consumptive too fast in the recreation, when handheld mobile control end 10 and virtual reality display end 20 are through wired coupling connection, make virtual reality display end 20 acquire the residual capacity of handheld mobile control end 10, when the residual capacity of handheld mobile control end 10 is less than predetermineeing the electric quantity, charge for handheld mobile control end 10, thereby the duration of time of handheld mobile control end 10 is prolonged, avoid handheld mobile control end 10 to take place because of the phenomenon of the battery power exhaustion shutdown.

According to the technical scheme, the virtual reality game system comprises a rectangular handheld mobile control end and a virtual reality display end, wherein the handheld mobile control end and the virtual reality display end are in coupling connection in a wired or wireless mode; the virtual reality display end can synchronously run a corresponding game application program according to a starting instruction generated by the operation of a user on the handheld mobile control end, load game data, render a game picture according to the game data and output the game picture to a left display screen and a right display screen of the virtual reality display end; in addition, the handheld mobile control end generates an operation instruction according to the operation of the thumb of the user during the game running, then the operation instruction is sent to the virtual reality display end, the virtual reality display end determines an operation execution object in the game picture according to the operation instruction, corresponding object operation is executed on the operation execution object, and the real-time game picture is generated by combining game data; therefore, the process that the power consumption of the handheld mobile control end is increased in the game is transferred to the virtual reality display end to be executed, so that the temperature of the handheld mobile control end can be reduced, and the endurance time of the handheld mobile control end is prolonged.

Example two

An embodiment of the present application provides a virtual reality game implementation method, which is applied to a virtual reality game system provided in the embodiment of the present application, and fig. 7 is a flowchart of the virtual reality game implementation method provided in the embodiment of the present application, and as shown in fig. 7, the method includes the following steps:

and step S110, coupling and connecting the handheld mobile control end and the virtual reality display end in a wired or wireless mode.

Step S120, the processor of the handheld mobile control end acquires a starting touch gesture of a user on the display touch module before a game application program is started to generate a starting instruction, runs the corresponding game application program according to the starting instruction, and sends the starting instruction to the micro-processing module of the virtual reality display end through the control transmission module.

The user can execute a preset starting touch gesture on the display touch module or click a game icon displayed on the display touch module through fingers; when the processor detects that the touch gesture of the user on the display touch module is a starting touch gesture or detects that the user clicks a game icon displayed on the display touch module through a finger, the processor generates a starting instruction, starts a corresponding game application program according to the starting instruction, and sends the starting instruction to the micro-processing module of the virtual reality display end through the control transmission module, so that the micro-processing module synchronously runs the corresponding game application program, and the virtual reality display end can present game content to the user.

Step S130, the micro-processing module of the virtual reality display end receives the starting instruction, synchronously starts a game application program corresponding to the starting instruction according to the starting instruction and the handheld mobile control end, loads game data, renders game pictures according to the game data, and outputs the game pictures to the left display screen and the right display screen of the virtual reality display end.

In the application, the game picture output by the micro-processing module comprises a left-eye picture and a right-eye picture, and the left-eye picture and the right-eye picture jointly form a virtual reality game picture provided by a virtual reality display end; the left eye picture is sent to left display screen, left display screen display picture and passes through to the micro-processing module left side optical amplification module is enlargied the virtual image after the recreation picture is enlarged presents for user's left eye, and the micro-processing module sends right eye picture for right display screen, and left display screen display picture passes through right side optical amplification module is enlarged the virtual image after the recreation picture is enlarged presents for user's right eye.

Step S140, after the game application program is started, the processor of the handheld mobile control end obtains in real time a first operation command generated by a first operation gesture of a first touch control key of the display touch module performed by a first thumb of the user, and a second operation command generated by a second operation gesture of a second touch control key of the display touch module performed by a second thumb of the user, and sends the first operation command and the second operation command to the microprocessor module of the virtual reality display end through the control transmission module.

Step S150, a microprocessor module of the virtual reality display end receives the first operation instruction and the second operation instruction, and determines an operation execution object in a game picture displayed on the left display screen and the right display screen corresponding to the first operation gesture according to the first operation instruction; and executing the object operation corresponding to the second operation gesture on the operation execution object according to the second operation instruction, generating a real-time game picture by combining game data, and outputting the real-time game picture to the left display screen and the right display screen.

In the prior art, an operation instruction is generated according to an operation gesture of a user, an operation execution object and an object operation of the operation execution object are determined according to the operation execution, and a process of generating a real-time game picture by combining game data is completed by a processor in a handheld mobile control terminal.

In the application, in order to reduce the heat productivity of the handheld mobile control end during the game, the temperature of the handheld mobile control end during the game is reduced. The method comprises the steps of generating an operation instruction according to an operation gesture of a user, determining an operation execution object and an object operation of the operation execution object according to operation execution and generating a real-time game picture by combining game data, which are realized in the prior art in a mobile control terminal, and transferring the process into a virtual reality display terminal. The mobile control end is held and only needs to send the mobile control end to the micro-processing module of the virtual reality display end through the control transmission module, the micro-processing module of the virtual reality display end receives a first operation instruction and a second operation instruction, an operation execution object in the game pictures displayed on the left display screen and the right display screen corresponding to the first operation gesture is determined according to the first operation instruction, an object operation corresponding to the second operation gesture is executed on the operation execution object according to the second operation instruction, and the real-time game pictures are generated by combining game data. Therefore, the processor in the handheld mobile control terminal cannot run with a high load because the process is not executed, so that a large amount of electric quantity of the battery cannot be consumed, and a large amount of heat cannot be generated, so that compared with the prior art, the temperature of the handheld mobile control terminal can be greatly reduced.

In an alternative embodiment, the method further comprises:

and 121, after the starting instruction is sent to the micro-processing module of the virtual reality display end through the control transmission module, turning off the display touch module until the display touch module receives another screen lightening request.

After the control transmission module sends the starting instruction to the micro-processing module of the virtual reality display end, the micro-processing module of the virtual reality display end synchronously starts a game application program corresponding to the starting instruction with the handheld mobile control end according to the starting instruction, loads game data and renders game pictures according to the game data. Therefore, the user can see the game picture through the virtual reality display end, and the user can always wear the virtual reality display end in the game without watching the game picture on the display touch module. Therefore, after the control transmission module sends the starting instruction to the micro-processing module of the virtual reality display end, the display touch module is turned off, so that the consumption of electric energy of the handheld mobile control end is reduced, the temperature of the handheld mobile control end is reduced, and the endurance time of the display touch module is prolonged.

Fig. 8 is a flowchart illustrating processing of online data according to an embodiment of the present disclosure.

In an alternative embodiment, as shown in FIG. 8, the process of processing online data includes the following steps:

step S210, the virtual reality display end generates uplink online data when running the game.

Step S221, the handheld mobile control end obtains the uplink online data of the virtual reality display end, and sends the uplink online data to an online service.

Step S222, the handheld mobile control end receives downlink online data from the online server, and sends the downlink online data to the virtual reality display end.

When a user experiences an internet online game by using the virtual reality game system provided by the application, the virtual reality game system can generate online data with the internet of things, wherein the online data comprises uplink online data needing to be sent to the internet and downlink online data obtained from the internet. Because the picture rendering and data processing process of the game is completed by the microprocessor module in the virtual reality display end, the uplink online data is synchronously generated by the microprocessor module in the picture rendering and data processing process of the game. Therefore, the handheld mobile control end does not participate in the generation process of the uplink online data in the game, is only used for acquiring the uplink online data of the virtual reality display end and sending the uplink online data to the online server; and receiving the downlink online data from the online server and sending the downlink online data to the virtual reality display end, so that the load of a processor of the handheld mobile control end is reduced, the heat productivity of the processor is reduced, and the temperature of the handheld mobile control end is reduced.

Fig. 9 is a flowchart illustrating brightness adjustment of a touch module according to an implementation method of a virtual reality game provided in an embodiment of the present application.

In an alternative embodiment, as shown in fig. 9, the process of adjusting the brightness of the display touch module includes the following steps:

and step S310, the distance sensor detects the state that the user wears or takes off the virtual reality display terminal, and sends the detection result to the handheld mobile control terminal.

Step S321, when the virtual reality display end is in a wearing state, the handheld mobile control end extinguishes the display touch module or reduces the brightness of the display touch module to a preset low value.

Step S322, when the virtual reality display end is in a take-off state, the handheld mobile control end lights the display touch module or improves the brightness of the display touch module to a preset high value.

When a user plays a game, the virtual reality display end can be worn or taken down at any time, when the virtual reality display end is worn by the user, a game picture is provided for the user by the virtual reality display end, and at the moment, the display touch module is timely turned off or the brightness of the display touch module is reduced, so that the power consumption of the handheld mobile control end is saved, the heat productivity of the handheld mobile control end is reduced, the temperature of the handheld mobile control end is reduced, and the endurance time is prolonged; when the user takes off the virtual reality display end, the display touch module is quickly lightened from a extinguished state or is increased from a low-brightness state to normal visible brightness, so that the user can continuously see the game picture from the display touch module in time.

In an alternative embodiment, as shown in fig. 10, the process of charging the handheld mobile control terminal includes the following steps:

step S410, when the handheld mobile control terminal and the virtual reality display terminal are connected through wired coupling, the virtual reality display terminal obtains the remaining electric quantity of the handheld mobile control terminal;

in step S420, when the remaining power of the handheld mobile control terminal is lower than a preset power, the handheld mobile control terminal is charged.

In the prior art, the performance of mobile devices such as mobile phones and the like which can be used as handheld mobile control terminals is continuously improved, and the screen is continuously enlarged. However, battery technology of mobile devices such as mobile phones has not been greatly improved, which causes that battery power consumption is fast when the mobile devices such as mobile phones run applications with fast power consumption such as games, and user experience is affected. For example, when a user is in a game match, the mobile phone consumes too fast power to cause insufficient battery power, and if the user is not charged in time, the mobile phone may be powered off due to the exhaustion of the battery power, so that the game match of the user is forced to be interrupted. This application leads to the problem that battery power is not enough or even shuts down in order to solve handheld mobile control end power consumptive too fast in the recreation, when handheld mobile control end and virtual reality display end pass through wired coupling and connect, make the virtual reality display end acquire the residual capacity of handheld mobile control end, when the residual capacity of handheld mobile control end is less than predetermineeing the electric quantity, charge for handheld mobile control end, thereby the duration of time of extension handheld mobile control end, avoid handheld mobile control end to take place because of the phenomenon that the battery power exhausts and shut down.

According to the technical scheme, the embodiment of the application provides a virtual reality game implementation method, which is applied to the virtual reality game system provided by the application, and the virtual reality game system comprises a rectangular handheld mobile control end and a virtual reality display end. The handheld mobile control end is coupled with the virtual reality display end in a wired or wireless mode; the virtual reality display end can synchronously run a corresponding game application program according to a starting instruction generated by the operation of a user on the handheld mobile control end, load game data, render a game picture according to the game data and output the game picture to a left display screen and a right display screen of the virtual reality display end; in addition, the handheld mobile control end generates an operation instruction according to the operation of the thumb of the user during the game running, then the operation instruction is sent to the virtual reality display end, the virtual reality display end determines an operation execution object in the game picture according to the operation instruction, corresponding object operation is executed on the operation execution object, and the real-time game picture is generated by combining game data; therefore, the process that the power consumption of the handheld mobile control end is increased in the game is transferred to the virtual reality display end to be executed, so that the temperature of the handheld mobile control end can be reduced, and the endurance time of the handheld mobile control end is prolonged.

It is noted that the virtual reality headset of the present application includes, but is not limited to, a single virtual reality device, and a mixed reality device having augmented reality and virtual reality, it being understood that a headset having virtual reality functionality is intended to be included.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This invention is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims

1. A virtual reality game system is characterized by comprising a rectangular handheld mobile control end and a virtual reality display end, wherein the handheld mobile control end is coupled with the virtual reality display end in a wired or wireless mode;

2. The virtual reality gaming system of claim 1,

the display touch module is rectangular, the positions of the first touch control key and the second touch control key are respectively close to the two wide sides of the display touch module, and the maximum distance from the wide sides is not more than one fourth of the length.

3. The virtual reality gaming system of claim 2,

the first operation gesture is used for controlling the position movement of the operation execution object; the second operation gesture is used for adjusting an operation action area operated by the object and adjusting an operation action target object operated by the object, determining an operation action target object operated by the object aiming at the operation action area based on the current position, and operating the object according to the operation execution object.

4. The virtual reality gaming system of claim 1,

the handheld mobile control terminal is configured to:

and after the starting instruction is sent to the micro-processing module of the virtual reality display end through the control transmission module, the display touch module is turned off until the display touch module receives another screen lightening request.

5. The virtual reality gaming system of claim 1,

the virtual reality display terminal is configured to generate uplink online data when a game is run;

the handheld mobile control terminal is configured to:

acquiring the uplink online data of the virtual reality display end, and sending the uplink online data to an online server; and

and receiving downlink online data from the online server, and sending the downlink online data to the virtual reality display end.

6. The virtual reality gaming system of claim 1,

the virtual reality display end comprises at least one distance sensor, and when a user wears the virtual reality display end, the distance sensor is positioned on one side of the face of the user; the distance sensor is configured to detect the state that the virtual reality display end is worn or taken down by a user, and send the detection result to the handheld mobile control end;

the handheld mobile control terminal is configured to:

when the virtual reality display end is in a wearing state, the display touch module is turned off or the brightness of the display touch module is reduced to a preset low value; and

and when the virtual reality display end is in a take-off state, lightening the display touch module or improving the brightness of the display touch module to a preset high value.

7. The virtual reality gaming system of claim 1,

when the handheld mobile control terminal and the virtual reality display terminal are connected through a wired coupling, the virtual reality display terminal is configured to:

acquiring the residual electric quantity of the handheld mobile control terminal;

and when the residual electric quantity of the handheld mobile control terminal is lower than the preset electric quantity, charging the handheld mobile control terminal.

8. A virtual reality game implementation method applied to the virtual reality game system of claims 1 to 7, the method comprising:

9. The method of claim 8, further comprising:

10. The method of claim 8, further comprising:

the virtual reality display end generates uplink online data when a game is run;

the handheld mobile control end acquires the uplink online data of the virtual reality display end and sends the uplink online data to an online server; and

and the handheld mobile control end receives downlink online data from the online server and sends the downlink online data to the virtual reality display end.

11. The method of claim 8, wherein the virtual reality display includes at least one distance sensor positioned to one side of a user's face when the virtual reality display is worn by the user, the method further comprising:

the distance sensor detects the state that a user wears or takes off the virtual reality display end, and sends a detection result to the handheld mobile control end;

when the virtual reality display end is in a wearing state, the handheld mobile control end extinguishes the display touch module or reduces the brightness of the display touch module to a preset low value;

and when the virtual reality display end is in a take-off state, the handheld mobile control end lights the display touch module or improves the brightness of the display touch module to a preset high value.

12. The method of claim 8, further comprising:

when the handheld mobile control terminal is connected with the virtual reality display terminal through wired coupling, the virtual reality display terminal acquires the residual electric quantity of the handheld mobile control terminal;