Disclosure of Invention
The embodiment of the invention provides a game handle, which is used for solving the problems of incomplete positioning azimuth and dead angle positioning in the prior art.
The embodiment of the invention provides a game handle, which comprises a handle main body and a front end receiving part positioned at one end of the handle main body;
The front end receiving part comprises a front end bearing frame, a front end upper shell covering a first surface of the front end bearing frame and a front end lower shell covering a second surface of the front end bearing frame; the front upper shell and the front lower shell form a shell for accommodating the front bearing frame; the front-end upper shell and the front-end lower shell are made of light-transmitting materials;
The front end bearing frame is attached with a first flexible circuit board, the first flexible circuit board comprises a plurality of receiving points, and the receiving points are distributed on the first surface and the second surface; the interval between adjacent receiving points on the same plane is not more than 90 degrees.
Optionally, the handle body comprises a body upper shell and a body lower shell; the main body upper shell and the main body lower shell form a shell for accommodating the main board and the battery assembly;
the battery assembly is connected with the main board and is used for supplying power to the main board;
The first flexible circuit board is connected with the main board and is used for sending positioning signals to the main board.
Optionally, the handle further comprises a rear end receiving part positioned at the other end of the handle main body;
The rear end receiving part comprises a rear end bearing carrier with a protruding part, a second flexible circuit board positioned on the rear end bearing carrier and a rear end shell;
the second flexible circuit board is connected with the main board, and the receiving point of the second flexible circuit board is positioned at the protruding part;
the rear end shell and the handle body form a shell for accommodating the rear end bearing frame, and the rear end shell part corresponding to the protruding part is made of light-transmitting materials.
Optionally, the front end receiving portion further includes a damping trigger key;
the first end of the damping trigger key is connected with the connecting part of the front end bearing frame, and the second end of the damping trigger key penetrates through the first hole of the main body lower shell and protrudes out of the surface of the main body lower shell.
Optionally, the front end receiving part further comprises a damping trigger key rubber pad and a damping trigger key rubber pad bearing frame;
the damping trigger key rubber pad is connected with the damping trigger key rubber pad bearing frame;
the damping trigger key rubber pad is connected with the damping trigger key rubber pad bearing frame and then integrally connected with the damping trigger key; the damping trigger key rubber pad and the damping trigger key rubber pad bearing frame are used for fixing the damping trigger key.
Optionally, the main body upper case includes a rocker and a third flexible circuit board;
The first end of the rocker is connected with the third flexible circuit board, and the second end of the rocker passes through the first hole of the main body upper shell and protrudes out of the surface of the main body upper shell;
the third flexible circuit board is connected with the main board.
Optionally, the main body upper shell further comprises an identification key, a function key and a power key;
The first end of the identification key passes through the second hole of the main body upper shell and is connected with the first end of the third flexible circuit board, and the second end of the identification key protrudes out of the surface of the main body upper shell;
the first end of the function key passes through the third hole of the main body upper shell and is connected with the first end of the third flexible circuit board, and the second end of the function key protrudes out of the surface of the main body upper shell;
the first end of the power button passes through the fourth hole of the main body upper shell and is connected with the first end of the third flexible circuit board, and the second end of the power button protrudes out of the surface of the main body upper shell.
Optionally, the main body upper shell further comprises a light guide column;
the first end of the light guide column penetrates through the fifth hole of the main body upper shell, and the second end of the light guide column is connected with the third flexible circuit board;
the light guide column is used for guiding out a plurality of different colors so as to represent the working condition of the power supply of the game handle.
Optionally, the battery assembly includes a battery body, a battery bracket;
the battery body is connected with the main board and supplies power for the main board;
The first face of battery support is connected with the battery body, and the second face of battery support is connected with vibrating motor, and vibrating motor is connected with the mainboard.
Optionally, the main body lower shell comprises a left button, a right button and a fourth flexible circuit board;
the fourth flexible circuit board is connected with the main board;
The first end of the left button passes through the second hole of the main body lower shell and is connected with the first end of the fourth flexible circuit board, and the second end of the left button protrudes out of the surface of the main body lower shell;
The first end of the right button passes through the second hole of the main body lower shell and is connected with the first end of the fourth flexible circuit board, and the second end of the left button protrudes out of the surface of the main body lower shell.
The embodiment of the invention shows that the game handle comprises a handle main body and a front end receiving part positioned at one end of the handle main body; the front end receiving part comprises a front end bearing frame, a front end upper shell covering a first surface of the front end bearing frame and a front end lower shell covering a second surface of the front end bearing frame; the front upper shell and the front lower shell form a shell for accommodating the front bearing frame; the front-end upper shell and the front-end lower shell are made of light-transmitting materials; the front end bearing frame is attached with a first flexible circuit board, the first flexible circuit board comprises a plurality of receiving points, and the receiving points are distributed on the first surface and the second surface; the interval between adjacent receiving points on the same plane is not more than 90 degrees. On one hand, the positioning signals sent by the base station are received by a plurality of receiving points on the first flexible circuit board attached to the front end bearing frame of the front end receiving part to position the game, and the interval between two adjacent receiving points is not more than 90 degrees, so that 360-degree omnibearing receiving of the positioning signals by the game handle can be ensured, and the defects of incomplete positioning orientation and low positioning precision in the prior art are avoided; on the other hand, the front-end upper shell and the front-end lower shell which are used for accommodating the front-end bearing frame are made of light-transmitting materials, so that positioning signals sent by the base station can be quickly and timely received, and the phenomenon of serious positioning delay in the prior art is avoided.
Detailed Description
In order to make the objects, technical solutions and advantageous effects of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
The game handle of the invention is widely related to the types, such as a wireless game handle, a Bluetooth handle, a wired handle, a VR (Virtual Reality) game handle and the like. The present invention is exemplified by a VR gamepad. The positioning applied in the VR field is infrared positioning, laser positioning, and the like.
The basic principle of the infrared positioning scheme is that a plurality of infrared transmitting cameras are utilized to cover an indoor positioning space, infrared reflecting points are placed on a tracked object, the infrared reflecting points can be seen, and the position information of the infrared reflecting points in the space is determined by capturing images of the reflecting points reflected back to the cameras. The infrared positioning system has very high positioning precision, and if a camera with very high frame rate is used, delay is very weak, so that a very good effect can be achieved. The cost is very high by using a camera with a frame rate of 120 frames, that is, a delay of about 20ms which can just reach VR application and does not generate dizzy feel, so that a positioning space of about 5 meters by 5 meters is covered, 6 to 10 cameras are generally needed, and the cost is conceivable.
The cost of motion capture by using a laser light tower is relatively low and the laser positioning accuracy is high. In the VR field, the precision of laser location scheme can reach the mm level, can experience very good shock sensation. The invention is exemplified by laser positioning.
FIG. 1 is an exploded schematic view schematically showing the structure of a front end receiving portion of a game handle according to an embodiment of the present invention, and as shown in FIG. 1, a game handle includes a handle body and a front end receiving portion at one end of the handle body; the front-end receiving part includes a front-end carrier 1020, a front-end upper case 1021 covering a first face of the front-end carrier 1020, and a front-end lower case 1022 covering a second face of the front-end carrier 1020; the front upper case 1021 and the front lower case 1022 constitute a case accommodating the front carrier 1020; the front-end upper case 1021 and the front-end lower case 1022 are made of a light-transmitting material; the front end bearing frame 1020 is attached with a first flexible circuit board 1023, the first flexible circuit board 1023 comprises a plurality of receiving points, and the receiving points are distributed on the first surface and the second surface; the interval between adjacent receiving points on the same plane is not more than 90 degrees. Specifically, the front end receiving portion located at one end of the game handle body is a housing that accommodates the front end upper case 1021 and the front end lower case 1022 of the front end carrier 1020, the front end upper case 1021 and the front end lower case 1022 form a closed space in a card and mode, the first flexible circuit board 1023 is attached to the front end carrier 1020, a plurality of receiving points are provided on the first flexible circuit board 1023, in a specific implementation, the front end receiving portion may be in various shapes, may be a cuboid, a square, a sphere, a cylinder, a ring, etc., and takes a ring as an example, and takes a base station as a laser positioning example, since a single laser scanning area of the base station is 90 degrees, it is necessary to provide at least one receiving point in a 90-degree range, so that 8 receiving points are required for the front end receiving portion in a ring shape, that is, 4 receiving points are provided on the carrier under the upper case cover of the ring and 4 receiving points on the carrier under the lower case cover of the first flexible circuit board, that is 4 receiving points are provided on the first surface and the second surface of the first flexible circuit board, and the first surface of the first flexible circuit board, respectively, the receiving points are 4 um, the receiving points are made of a light-transmitting material such as polycarbonate, and the front end receiving material such as Polycardbonate, and the front end receiving material can be made of a light-transmitting material, and the PC has a high transmittance, and the light-transmitting material can be made. Positioning signals transmitted by a base station are received by a plurality of receiving points on a first flexible circuit board 1023 attached to a front end bearing frame 1020 of a front end receiving part to perform positioning during game play, and the interval between two adjacent receiving points is not more than 90 degrees, so that 360-degree omnibearing receiving of positioning signals by a game handle can be ensured, and the defect of incomplete positioning azimuth in the prior art is avoided; the front upper case 1021 and the front lower case 1022 which accommodate the front carrier 1020 are made of light-transmitting material, and can quickly and timely receive the positioning signal transmitted by the base station, so that the phenomenon of serious positioning delay in the prior art is avoided.
Fig. 2 schematically illustrates a structural exploded view of a handle body provided in an embodiment of the present invention, as shown in fig. 2, the handle body includes a body upper case 103 and a body lower case 104; the main body upper case 103 and the main body lower case 104 constitute a case accommodating the main board 105 and the battery assembly 106; the battery assembly 106 is connected with the main board 105, and the battery assembly 106 is used for supplying power to the main board 105; the first flexible circuit board 1023 is connected to the motherboard 105 for sending a positioning signal to the motherboard 105. Specifically, the handle body is a closed shell for accommodating the main board 105 and the main body upper shell 103 and the main body lower shell 104 of the battery assembly 106 for assembling and fixing, in specific implementation, the battery assembly 106 can be attached to one surface of the main board 105, a certain interval can be formed between the battery assembly 106 and the main board 105, the battery assembly 106 supplies power to the main board 105, the first flexible circuit board 1023 attached to the front end bearing frame 1020 can be connected with the main board 105 through a connector, and after the first flexible circuit board 1023 receives positioning signals sent by the base station through each receiving point, the positioning signals are sent to the main board 105 for processing, so that positioning of the game handle is realized. The main board 105 is provided with a processor module, a sensor module, a power management module, a wireless communication module and a laser signal processing module; the processor module is used for processing data by the control center, the sensor module is used for carrying out origin angle positioning, the power management module is used for controlling power supply electric quantity and temperature, the wireless communication module is used for uploading data to the VR helmet for carrying out data transmission, and the laser signal processing module is used for carrying out space azimuth positioning through base station scanning. In a specific implementation, a USB interface may be connected to the motherboard 105, and the motherboard 105 may be charged directly by using the USB interface through an external fixed power source or a mobile power source, or the battery assembly 106 may be charged by using the external fixed power source or the mobile power source, and since the battery assembly 106 is connected to the motherboard 105, the motherboard 105 may be powered, and these modes ensure flexibility of a mode of charging the motherboard 105.
FIG. 3 is an exploded schematic view schematically showing the structure of a rear end receiving section of a game handle according to an embodiment of the present invention, wherein the rear end receiving section is located at the other end of the handle body as shown in FIG. 3; the rear end receiving portion includes a rear end carrier 1070 having a projection portion, a second flexible circuit board 1071 positioned on the rear end carrier 1070, and a rear end housing 1072; the second flexible circuit board 1071 is connected with the main board 105, and a receiving point of the second flexible circuit board 1071 is located at the protruding part; the rear end housing 1072 and the handle body constitute a housing accommodating the rear end carrier 1070, and a portion of the rear end housing 1072 corresponding to the protruding portion is made of a light-transmitting material. Specifically, the rear end receiving portion includes a rear end carrier 1070, a second flexible circuit board 1071 attached to the rear end carrier 1070, and a rear end housing 1072, where the rear end carrier 1070 has a protruding portion, and the protruding portion is provided with a receiving point for receiving a positioning signal sent by the base station, and the rear end receiving portion of the game handle is provided with a receiving point, so that when the situation that the positioning signal sent by the base station is blocked due to the head or other parts of the body of a user during a game is ensured, the positioning signal can be received omnidirectionally, the comprehensiveness of the positioning direction is ensured, and the problem that the dead angle cannot be positioned is avoided.
Optionally, the front end receiving portion further includes a damping trigger key 1024, as shown in fig. 4, a first end of the damping trigger key 1024 is connected to the connecting portion of the front end carrier 1020, and a second end of the damping trigger key 1024 passes through the first hole of the main body lower case 104 and protrudes from the surface of the main body lower case 104.
Optionally, the front end receiving portion further includes a damping trigger rubber pad 1025 and a damping trigger rubber pad carrier 1026, as shown in fig. 5, where the damping trigger rubber pad 1025 is connected to the damping trigger rubber pad carrier 1026; the damping trigger key rubber pad 1025 is integrally connected with the damping trigger key 1024 after being connected with the damping trigger key rubber pad carrier 1026; the damping trigger key rubber pad 1025 and the damping trigger key rubber pad carrier 1026 are used to secure the damping trigger key 1024.
In the above implementation, the front end receiver may optionally include a spring 1027, a spindle 1028, a spindle catch 1029 within the housing of the front end receiver, in addition to the damping trigger key 1024, the damping trigger key rubber pad 1025, and the damping trigger key rubber pad carrier 1026, as shown in fig. 6. The rotation shaft 1028 passes through a hole at one end of the damping trigger key 1024, then passes through the spring 1027 and then passes out from the other end of the damping trigger key 1024, and is fastened on the rotation shaft 1028 by the rotation shaft fastener 1029, and the damping trigger key 1024 is integrally connected with the connecting part of the front end receiving part, so that the rotation of the damping trigger key 1024 is realized. In particular implementations, spring 1027 is used to create damping, providing good trigger feedback to the user.
Fig. 7 is an exploded view schematically showing the structure of a main body upper case of a game handle according to an embodiment of the present invention, and as shown in fig. 7, the main body upper case 103 includes a rocker 1030 and a third flexible circuit board 1031; the first end of the rocker 1030 is connected with the third flexible circuit board 1031, and the second end of the rocker 1030 passes through the first hole of the main body upper case 103 and protrudes out of the surface of the main body upper case 103; the third flexible circuit board 1031 is connected to the main board 105.
Optionally, in a specific implementation, the main body upper case 103 may further include a rocker rubber cap 1032, as shown in fig. 8, where the rocker rubber cap 1032 has a buckle, and the rocker rubber cap 1032 is fastened to the second end of the rocker 1030 protruding from the surface of the main body upper case 103 by the buckle on the rocker rubber cap 1032, where the rocker rubber cap 1032 may provide a user's feel, so as to facilitate the operation of the rocker 1030. When the rocker 1030 is operated through the rocker rubber cap 1032, the third flexible circuit board 1031 connected to the rocker 1030 is triggered, thereby enabling the main board 105 to realize the function of the rocker 1030. In particular, among other things, the function of the rocker 1030 may be a menu selection of movements and daily operations of the character at the time of play.
Optionally, the main body upper case 103 further includes an identification key 1033, a function key 1034, and a power key 1035, as shown in fig. 9, where a first end of the identification key 1033 passes through a second hole of the main body upper case 103 and is connected with a first end of the third flexible circuit board 1031, and a second end of the identification key 1033 protrudes from a surface of the main body upper case 103; the first end of the function key 1034 passes through the third hole of the main body upper case 103 and is connected with the first end of the third flexible circuit board 1031, and the second end of the function key 1034 protrudes out of the surface of the main body upper case 103; the first end of the power key 1035 passes through the fourth hole of the main body upper case 103 and is connected with the first end of the third flexible circuit board 1031, and the second end of the power key 1035 protrudes from the surface of the main body upper case 103. Specifically, one end of the identification key 1033, the function key 1034, and the power key 1035 respectively pass through the hole of the main body upper case 103 and are connected to the third flexible circuit board 1031, and the other end thereof respectively protrudes from the surface of the main body upper case 103. In a specific implementation, when each key is pressed, the third flexible circuit board 1031 is triggered to implement the function of each key. The functions of the identification key 1033 are: when the identification key 1033 is pressed for a long time, the relevant VR host device is matched through WIFI or Bluetooth, and when the identification key 1033 is pressed for a short time, the return system and the re-calling menu are indicated; the functions of the function keys 1034 are: the confirmation or cancellation or return of special skills, weapon switching, ammunition filling and menus are applied in the relevant scenes during the game; the functions of the power key 1035 are: for turning on or off the power of the game handle.
Optionally, the main body upper case 103 may further include a function key and rocker bracket 10340 for carrying function keys and rockers, and a power key bracket 10350 for carrying power keys, as shown in fig. 10, the function key 1034 and rockers 1030, and the power key 1035 are respectively placed in the function key and rocker bracket 10340, and the power key bracket 10350, and the function key and rocker bracket 10340, and the power key bracket 10350 are respectively used for fixing the function key 1034 and rockers 1030, and the power key 1035.
Optionally, the main body upper case 103 further includes a light guiding post 1036, as shown in fig. 11, a first end of the light guiding post 1036 passes through the fifth hole of the main body upper case 103, and a second end of the light guiding post 1036 is connected with the third flexible circuit board 1031; the light-guiding columns 1036 are used for guiding out a plurality of different colors to represent the working condition of the power supply of the game handle. In a specific implementation, a three-color lamp is connected to the third flexible circuit board 1031, the three-color lamp may be a light emitting diode, the light emitted by the three-color lamp is led out through a light guide column, the three-color lamp emits three colors, namely, blue, red and yellow, respectively, and the three colors are led out through the light guide column, and represent different states of the game handle power supply and represent the states of switching, matching, low electricity, charging and full charging of the power supply.
Fig. 12 exemplarily shows a schematic exploded view of a structure of a battery assembly provided in an embodiment of the present invention, and as shown in fig. 12, the battery assembly 106 includes a battery body 1060, a battery holder 1061; the battery body 1060 is connected with the main board 105, and the battery body 1060 supplies power to the main board 105; the first face of the battery holder 1061 is connected to the battery body 1060, the second face of the battery holder 1061 is connected to the vibration motor 1062, and the vibration motor 1062 is connected to the main board 105. In a specific implementation, the battery body 1060 is placed in a groove of the battery support 1061 and is fixed by adhesion, the vibration motor 1062 is placed in another circular groove of the battery support 1061 for adhesion, and a male flat cable of the vibration motor 1062 is connected with the main board 105 to provide shooting feel or collision feedback for interaction.
Optionally, the main body lower case 104 includes a left key 1040, a right key 1041, and a fourth flexible circuit board 1042, as shown in fig. 13, the fourth flexible circuit board 1042 is connected to the main board 105; the first end of the left button 1040 passes through the second hole of the main body lower case 104 and is connected with the first end of the fourth flexible circuit board 1042, and the second end of the left button 1040 protrudes out of the surface of the main body lower case 104; the first end of the right button 1041 passes through the second hole of the main body lower case 104 and is connected with the first end of the fourth flexible circuit board 1042, and the second end of the left button 1040 protrudes from the surface of the main body lower case 104. In a specific implementation, the first ends of the left button 1040 and the right button 1041 may pass through a second hole on the main body lower case 104, and the second ends protrude from the surface of the main body lower case 104, and the second ends of the left button and the right button are covered with a button cap with lines. The left button 1040 and the right button 1041 can be used in cooperation with the damping trigger button 1024 of the front end receiving portion, or the left button 1040 and the right button 1041 are used independently to trigger the fourth flexible circuit board 1042 to realize aiming, attack, grabbing and force control functions in the game process. In particular implementations, the body lower housing 104 may also include a fourth flexible circuit board support 10420. Accordingly, fig. 14 exemplarily shows a schematic exploded view of the structure of the lower case of the main body of the game handle according to the embodiment of the present invention, as shown in fig. 14. The fourth flexible circuit board 1042 is positioned Kong Niantie on the fourth flexible circuit board support 10420 through the lower body shell 104 and is connected with the main board 105, so that the functions of the left button 1040 and the right button 1041 or the functions of the combination of the left button 1040, the right button 1041 and the damping trigger button 1024 are realized. In addition, one end of the battery holder 1061 is engaged with the fourth flexible circuit board holder 10420 for supporting and fixing the battery holder 1061, defining the position of the battery holder 1061, and the other end of the battery holder 1061 is fixed to the main body lower case 104 by screws.
Fig. 15 schematically illustrates an exploded view of the overall structure of a game handle according to an embodiment of the present invention, as shown in fig. 15.
A game handle comprises a handle body, a front end receiving part positioned at one end of the handle body and a rear end receiving part positioned at the other end of the handle body, wherein the parts are mutually fixed together through a connecting device or a buckle. Wherein,
The front-end receiving portion is a case formed of a front-end upper case 1021 and a front-end lower case 1022, the front-end upper case 1021 and the front-end lower case 1022 being assembled and fixed through corresponding holes in the front-end carrier 1020, the front-end upper case 1021 and the front-end lower case 1022 being made of a light-transmitting material. The front end receiving portion includes, in a housing: first flexible circuit board 1023, front end carrier 1020, damping trigger key 1024, damping trigger key rubber pad 1025, damping trigger key rubber pad holder 1026, spring 1027, spindle 1028, spindle snap 1029. The first flexible circuit board 1023 is attached to the first surface and the second surface of the front end carrier 1020, the first flexible circuit board 1023 includes a plurality of receiving points, the receiving points are distributed on the first surface and the second surface of the first flexible circuit board 1023, the interval between adjacent receiving points on the same surface of the plurality of receiving points is not greater than 90 degrees, and the plurality of receiving points are used for receiving positioning signals sent by the base station. The damping trigger key rubber pad 1025 is connected to the damping trigger key rubber pad holder 1026, and the damping trigger key rubber pad 1025 is integrally connected to the damping trigger key 1024 after being connected to the damping trigger key rubber pad holder 1026. The shaft 1028 passes through a hole in one end of the damping trigger key 1024, then passes through the spring 1027 and then passes out of the other end of the damping trigger key 1024, then the shaft 1028 is fixed by the shaft buckle 1029, and one end of the integral damping trigger key 1024 is connected by a connector on the front end carrier 1020, and the other end passes out of the first hole of the main body lower case 104 of the handle main body. The damping trigger key 1024 can be used alone or in combination with the left and right keys 1040 and 1041 on the main body lower case 104 to realize aiming, attack, grabbing, and force control functions during game play.
The handle body is a closed shell formed by a body upper shell 103 and a body lower shell 104, and the shell comprises a main board 105 and a battery assembly 106. The main body upper shell 103 comprises a rocker 1030, a third flexible circuit board 1031, a rocker rubber cap 1032, an identification key 1033, a function key 1034, a power key 1035, a light guide column 1036, a function key for bearing the function key and the rocker, a rocker bracket 10340 and a power key bracket 10350 for bearing the power key, wherein a first end of the rocker 1030 is connected with the third flexible circuit board 1031, a second end of the rocker 1030 penetrates through a first hole of the main body upper shell 103 and protrudes out of the surface of the main body upper shell 103, the rocker 1030 protrudes out of the end of the surface of the main body upper shell 103 through a buckle of the rocker rubber cap 1032, the rocker 1030 is conveniently operated, and the third flexible circuit board 1031 is connected with the main board 105. The first end of the identification key 1033 passes through the second hole of the main body upper case 103 and is connected with the first end of the third flexible circuit board 1031, and the second end of the identification key 1033 protrudes out of the surface of the main body upper case 103; the function key 1034 is fixed by the support 10340 of the function key and the rocker, the first end of the function key 1034 passes through the third hole of the main body upper shell 103 and is connected with the first end of the third flexible circuit board 1031, and the second end of the function key 1034 protrudes out of the surface of the main body upper shell 103; the power key support 10350 fixes the power key 1035, the first end of the power key 1035 passes through the fourth hole of the main body upper case 103 and is connected with the first end of the third flexible circuit board 1031, and the second end of the power key 1035 protrudes out of the surface of the main body upper case 103. The first end of the light guide post 1036 passes through the fifth hole of the main body upper case 103, and the second end of the light guide post 1036 is connected with the third flexible circuit board 1031; the light-guiding columns 1036 are used for guiding out a plurality of different colors to represent the working condition of the power supply of the game handle.
The battery assembly 106 comprises a battery body 1060, a battery support 1061 and a vibration motor 1062, wherein the battery body 1060 is placed in one groove of the battery support 1061 to be pasted and fixed, the vibration motor 1062 is placed in the other groove of the battery support 1061 to be pasted and fixed, one end of the battery support 1061 is matched with the fourth flexible circuit board support 10420 to be used, the other end of the battery support 1061 is fixed on the main body lower shell 104 through screws, and a male wire of the vibration motor 1062 is connected to the main board 105 to provide shooting hand feeling or collision feedback for interaction.
The main body lower case 104 includes left and right keys 1040, 1041, a fourth flexible circuit board 1042, and a fourth flexible circuit board support 10420. The flexible circuit board support 10420 fixes the fourth flexible circuit board 1042, the fourth flexible circuit board 1042 is connected with the main board 105, the first end of the left button 1040 passes through the second hole of the main body lower case 104 and is connected with the first end of the fourth flexible circuit board 1042, the second end of the left button 1040 protrudes out of the surface of the main body lower case 104, the first end of the right button 1041 passes through the second hole of the main body lower case 104 and is connected with the first end of the fourth flexible circuit board 1042, and the second end of the left button 1040 protrudes out of the surface of the main body lower case 104. The left and right keys 1040, 1041 may be used in combination with the damping trigger key 1024 or alone, and may perform aiming, attack, grasping, and force control functions during play.
The rear end receiving part comprises a rear end carrying frame 1070 with a bulge part, a second flexible circuit board 1071 positioned on the rear end carrying frame 1070 and a rear end shell 1072, the second flexible circuit board 1071 is connected with the main board 105, the receiving point of the second flexible circuit board 1071 is positioned on the bulge part, the rear end shell 1072 and the handle body form a shell for accommodating the rear end carrying frame 1070, and the rear end shell 1072 corresponding to the bulge part is made of light-transmitting materials. The rear end housing 1072 is provided with a USB interface, and the motherboard 105 is connected internally, so that the motherboard 105 can be directly charged by using an external fixed power supply or a mobile power supply through the USB interface, or the battery body 1060 can be charged by using the external fixed power supply or the mobile power supply through the USB interface, and the battery body 1060 is connected with the motherboard 105, so that the motherboard 105 can be powered.
From the above, it can be seen that: a game handle comprises a handle main body and a front end receiving part positioned at one end of the handle main body; the front-end receiving part includes a front-end carrier 1020, a front-end upper case 1021 covering a first face of the front-end carrier 1020, and a front-end lower case 1022 covering a second face of the front-end carrier; the front upper case 1021 and the front lower case 1022 constitute a case accommodating the front carrier 1020; the front-end upper case 1021 and the front-end lower case 1022 are made of a light-transmitting material; the front end bearing frame 1020 is attached with a first flexible circuit board 1023, the first flexible circuit board 1023 comprises a plurality of receiving points, and the receiving points are distributed on the first surface and the second surface; the interval between adjacent receiving points on the same plane is not more than 90 degrees. On one hand, in the embodiment of the invention, the positioning signals sent by the base station are received by a plurality of receiving points on the first flexible circuit board 1023 attached to the front end bearing frame 1020 of the front end receiving part to perform positioning during game, and the interval between two adjacent receiving points is not more than 90 degrees, so that 360-degree omnibearing receiving of positioning signals by the game handle can be ensured, and the defects of incomplete positioning orientation and low positioning precision in the prior art are avoided; on the other hand, the front upper case 1021 and the front lower case 1022 for accommodating the front carrier 1020 are made of transparent materials, so that the positioning signals sent by the base station can be quickly and timely received, and the phenomenon of serious positioning delay in the prior art is avoided.
It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, or as a computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.
It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.