CN214158508U

CN214158508U - Machine gun simulator

Info

Publication number: CN214158508U
Application number: CN202022651448.3U
Authority: CN
Inventors: 卫来; 乔潇楠
Original assignee: Beijing 66 Interactive Technology Co ltd
Current assignee: Beijing 66 Interactive Technology Co ltd
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-09-10
Anticipated expiration: 2030-11-16

Abstract

The utility model discloses a machine gun analogue means, include: the device comprises a gun body in a machine gun shape, a support component rotationally connected with the gun body, a button rocker component simulating shooting operation and weapon switching operation, a rotary rocking handle component simulating special weapon releasing operation, a sensor and a communication module; wherein the gun body is arranged on the supporting part; the button rocker component, the rotary rocking handle component, the sensor and the communication module are all arranged on the gun body. Adopt the utility model discloses a scheme can improve convenience, security and the interest of machine gun analogue means, and then promotes user experience.

Description

Machine gun simulator

Technical Field

The utility model relates to a recreation peripheral hardware technique especially relates to a machine gun analogue means.

Background

Gaming peripherals used in conjunction with terminal games are becoming more popular; however, in the related art, the game peripheral corresponding to the Augmented Reality (AR) somatosensory shooting game needs to be optimized.

SUMMERY OF THE UTILITY MODEL

For solving relevant technical problem, the embodiment of the utility model provides a machine gun analogue means.

The embodiment of the utility model provides a technical scheme is so realized:

the embodiment of the utility model provides a machine gun analogue means, include: the device comprises a gun body in a machine gun shape, a support component rotationally connected with the gun body, a button rocker component simulating shooting operation and weapon switching operation, a rotary rocking handle component simulating special weapon releasing operation, a sensor and a communication module; wherein the content of the first and second substances,

the gun body is arranged on the supporting component; the button rocker component, the rotary rocking handle component, the sensor and the communication module are all arranged on the gun body;

the sensor is connected with the button rocker component and the rotary rocking handle component and is used for identifying the state changes of the button rocker component, the rotary rocking handle component and the gun body;

the communication module is used for sending the information identified by the sensor to a terminal.

In the above scheme, a first type of sensor in the sensors is connected to the button rocker member and is used for identifying a state change when the button rocker member is pressed or pushed.

In the above solution, a second type of sensor of the sensors is connected to the rotary rocking handle member, and is configured to identify a state change when the rotary rocking handle member is rotated.

In the above scheme, the apparatus further comprises: the gear set is connected with the rotary rocking handle component, and the barrel component is connected with the gear set; wherein the content of the first and second substances,

the barrel component is rotatably arranged on the gun body; when the rotary rocking handle component is rotated, the barrel component is driven to rotate through the gear set.

In the above scheme, the second sensor is connected with the rotary rocking handle component and the gear set; the second type of sensor is used for identifying the rotating speed of the rotary rocking handle component and the output rotating speed of the gear set,

In the above scheme, the apparatus further comprises a processing module; wherein the content of the first and second substances,

the processing module is used for determining a rotation speed ratio between the rotation speed of the rotary rocking handle component and the output rotation speed of the gear set, and determining the relative position relation between at least two gears contained in the gear set according to the determined rotation speed ratio;

the communication module is further used for sending the relative position relation between at least two gears contained in the gear set to the terminal.

In the above solution, the relative position relationship between at least two gears included in the gear set can be operatively adjusted to adjust the rotation speed of the barrel component.

In the above scheme, the gear set and the rotary rocking handle part are respectively arranged on two sides of the gun body.

In the above scheme, the barrel component is connected with the gear set through a rotating shaft; when the rotary rocking handle component is rotated, the rotating shaft is driven to rotate through the gear set, and the barrel component is driven to rotate through the rotating shaft.

In the above solution, a third type of the sensors is used to identify a rotation angular velocity based on at least one direction when the gun body is rotated.

the processing module is used for determining the relative position relationship between the gun body and the supporting component according to the rotating angular speed of the gun body in at least one direction when the gun body is rotated;

the communication module is further used for sending the relative position relation between the gun body and the supporting component to the terminal.

In the above scheme, the third type of sensor is a gyroscope sensor.

In the above scheme, the communication module is a bluetooth communication module.

In the above scheme, the rifle body is wood system mosaic structure.

The embodiment of the utility model provides a machine gun analogue means, include: the device comprises a gun body in a machine gun shape, a support component rotationally connected with the gun body, a button rocker component simulating shooting operation and weapon switching operation, a rotary rocking handle component simulating special weapon releasing operation, a sensor and a communication module; wherein the gun body is arranged on the supporting part; the button rocker component, the rotary rocking handle component, the sensor and the communication module are all arranged on the gun body; the sensor is connected with the button rocker component and the rotary rocking handle component and is used for identifying the state changes of the button rocker component, the rotary rocking handle component and the gun body; the communication module is used for sending the information identified by the sensor to a terminal. According to the scheme of the embodiment of the utility model, the machine gun simulation device can detect the state change of the corresponding part of the machine gun simulation device through the sensor and send the state change to the terminal; therefore, the state change of the corresponding part of the machine gun simulation device is not required to be detected through a sensor on the terminal, namely, the terminal is not required to be installed on the machine gun simulation device when a user runs a game, and the convenience of the machine gun simulation device is improved; and, need not to set up the entity bullet in the machine gun analogue means, the terminal can present corresponding recreation effect according to the state change of the corresponding part of machine gun analogue means, has improved machine gun analogue means's security and interest, and then has promoted user experience.

Drawings

Fig. 1 is a first schematic structural diagram of a machine gun simulation device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a machine gun simulation device according to an embodiment of the present invention;

fig. 3 is a third schematic structural view of a machine gun simulation device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a machine gun simulation apparatus according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the drawings and examples.

In the related art, a game peripheral corresponding to an AR somatosensory shooting game of a terminal generally detects a state change (for example, a rotation direction and a rotation angle of the game peripheral) of the game peripheral by using a sensor (for example, a gyroscope sensor) arranged in the terminal to realize an aiming operation in the game; therefore, when a user plays games, the terminal needs to be installed on the corresponding game peripheral and then the peripheral is lifted up to perform corresponding operations, so that the convenience of the user for using the game peripheral is poor; moreover, most of game peripherals corresponding to the terminal AR somatosensory shooting game are pistol-shaped game peripherals, so that the interest is poor; most machine gun simulation devices (such as toys) are usually equipped with a solid bullet (such as a gel bullet) which can simulate the shooting operation of the solid bullet and have certain danger.

Based on this, in various embodiments of the present invention, a sensor is disposed in the machine gun simulation device, and the machine gun simulation device can detect (i.e. identify) the state change of its corresponding component through the sensor and send the state change to the terminal; therefore, the state change of the corresponding part of the machine gun simulation device is not required to be detected through a sensor on the terminal, namely, the terminal is not required to be installed on the machine gun simulation device when a user runs a game, and the convenience of the machine gun simulation device is improved; and, need not to set up the entity bullet in the machine gun analogue means, the terminal can present corresponding recreation effect according to the state change of the corresponding part of machine gun analogue means, has improved machine gun analogue means's security and interest, and then has promoted user experience.

The embodiment of the utility model provides a machine gun analogue means, as shown in figure 1, the device includes: the device comprises a gun body 11 in a machine gun shape, a support part 12 rotationally connected with the gun body, a button rocker part 13 simulating shooting operation and weapon switching operation, a rotary rocking handle part 14 simulating special weapon releasing operation, a sensor and a communication module; wherein the content of the first and second substances,

the gun body 11 is arranged on the supporting part 12; the button rocker part 13, the rotary rocking handle part 14, the sensor and the communication module are all arranged on the gun body 11;

the sensor is connected with the button rocker part 13 and the rotary rocking handle part 14 and is used for identifying the state changes of the button rocker part 13, the rotary rocking handle part 14 and the gun body 11;

Specifically, in practical application, when the sensor detects that the state of the corresponding component (the button rocker component 13, the rotary crank component 14 and the gun body 11) changes, the sensor can generate state change information representing the detected state change process, and send the generated state change information to the communication module; and the communication module sends the received state change information to a terminal so that the terminal can determine and present a game effect corresponding to the state change information.

In practical applications, the gun body 11 may be any shape of a machine gun, and may be determined by developers according to design requirements, for example, a gatling machine gun, a milniser machine gun, and the like.

In practical applications, the material of the gun body 11 can be determined by developers according to design requirements, such as a wooden splicing structure.

Based on this, in an embodiment, the gun body 11 may be a wooden split structure.

In practical applications, the gun body 11 is rotatably connected to the supporting member 12, and may be rotatably connected left and right and/or rotatably connected up and down.

In practical applications, the terminal may include a Personal Computer (PC), a mobile phone, and the like; the PC may include a desktop computer, a notebook computer, a tablet computer, etc.; the terminal can load an AR somatosensory shooting game; the machine gun simulation device is a game peripheral of the AR somatosensory shooting game. Before a communication module of the machine gun simulation device sends the received state change information to a terminal, the terminal needs to load an AR somatosensory shooting game and establish communication connection with the machine gun simulation device; the connection established by the terminal and the machine gun simulation device can be near field communication connection such as Bluetooth, wireless network (Wi-Fi) and the like. After the terminal is in communication connection with the machine gun simulation device, a user can execute corresponding operation on the machine gun simulation device according to a game scene in the AR somatosensory shooting game, and the state change of corresponding parts of the machine gun simulation device is caused by the operation executed by the corresponding parts of the machine gun simulation device. In addition, the game effects determined and presented by the terminal may include screen effects and sound effects.

In practical application, the sensor may include a pressing sensor, a touch sensor, a gyroscope sensor, a motor encoder, and the like; the number and the arrangement positions of the sensors can be determined by research personnel according to design requirements; the operation of the user on each part identified by the sensor can be determined by a developer according to design requirements; for example, a first type of sensor among the sensors may be connected to the button rocker 13 to identify a state change of the button rocker 13 when the user presses or pushes the button rocker.

Based on this, in an embodiment, a first type of sensor among the sensors is connected to the button rocker part 13, and can be used for identifying the operation of pressing or pushing the button rocker part 13.

Specifically, when detecting that the button rocker component 13 is pressed or pushed, the first type of sensor may generate first type of state change information representing a process of pressing or pushing the button rocker component, and send the generated first type of state change information to the communication module; the communication module sends the received first-class state change information to the terminal so that the terminal can determine and present a game effect corresponding to the first-class state change information.

In practice, the first type of sensor may be provided in the button rocker member 13.

In practical applications, the first type of sensor may be a pressing sensor, a touch sensor, or the like. After the communication module sends the first type of state change information representing the process of pressing or pushing the button rocker component 13 to the terminal, the terminal can determine and present a corresponding game effect: the first type of state change information representing the process of pressing the button rocker part 13 can correspond to the game effect of common bullet shooting; the first type of state change information characterizing the progress of the push of the button rocker member 13 may correspond to the effect of the weapon on the game switched.

In practice, a second type of sensor may be connected to the rotating handle member 14 for detecting a change in state of the rotating handle member 14 when rotated by a user.

Based on this, in one embodiment, a second type of sensor among the sensors is coupled to the rotating handle member 14 and may be used to identify a change in state when the rotating handle member 14 is turned.

Specifically, the second type sensor may generate second type state change information representing a process in which the rotary rocking handle part 14 is rotated when detecting that the rotary rocking handle part 14 is rotated, and send the generated second type state change information to the communication module; and the communication module sends the received second type state change information to a terminal so that the terminal can determine and present a game effect corresponding to the second type state change information.

In practical applications, in order to enhance the interest of the user in using the machine gun simulation device, a rotatable component may be added to the machine gun simulation device, for example, a barrel of the machine gun simulation device is set as a rotatable barrel, so as to enhance the simulation experience of the user in operating the machine gun simulation device. As shown in fig. 2, a rotatable barrel part 21 and a gear train 22 including at least two gears may be provided on the gun body 11 such that the barrel part 21 is connected to the rotary crank part 14 through the gear train 22; thus, when the rotary handle member 14 is rotated, the barrel member 21 can be rotated by the gear train 22.

Based on this, in an embodiment, the machine gun simulation apparatus may further include: a gear train 22 connected to the rotary handle member 14 and a barrel member 21 connected to the gear train; wherein the content of the first and second substances,

the barrel part 21 is rotatably arranged on the gun body 11; when the rotary handle member 14 is rotated, the barrel member 21 is rotated by the gear train 22.

In practical applications, as shown in fig. 1 and 2, the gear set 22 and the rotary crank member 14 may be respectively disposed on two sides of the gun body 11, and connected inside the gun body 11.

In this regard, in one embodiment, the gear set 22 may be disposed on each side of the gun body 11 along with the rotating crank member 14.

In practical use, as shown in fig. 3, the barrel member 21 may be connected to the gear set 22 through a rotating shaft 31 provided inside the gun body 11; when the rotary handle member 14 is rotated, the gear set 22 rotates the rotary shaft 31, and the rotary shaft 31 rotates the barrel member 21.

In this regard, in one embodiment, the barrel section 21 may be connected to the gear train 22 by a rotating shaft 31; when the rotary handle member 14 is rotated, the gear set 22 rotates the rotary shaft 31, and the rotary shaft 31 rotates the barrel member 21.

In practical applications, when the rotating crank member 14 is rotated at a fixed speed, the gear set and the form of the gear set 22 (i.e. the relative positional relationship between at least two gears included) are different, and the rotating speed of the barrel member 21 is changed accordingly; in order to further enhance the interest of the user in using the machine gun simulator, the user can adjust the rotation speed of the barrel part 21 by adjusting the relative position relationship between at least two gears included in the gear set 22, thereby further improving the simulation experience of the user in operating the machine gun simulator.

Based on this, in one embodiment, the relative position relationship between at least two gears included in the gear set 22 may be operatively adjusted to adjust the rotation speed of the barrel member 21.

In practical applications, with the difference of the relative positional relationship between at least two gears included in the gear set 22 (i.e. the difference of the rotating speed of the barrel part 21), the game effect of the release of the corresponding special weapon in the AR body shooting game may also be different; therefore, the second type of sensor can be used to detect the rotation speed of the rotary handle member 14 and the output rotation speed of the gear set 22 when the rotary handle member 14 is rotated, that is, the second type of state change information generated by the second type of sensor at least can include the rotation speed of the rotary handle member 14 and the output rotation speed of the gear set 22; after receiving the second type of state change information, the terminal may determine a relative position relationship between at least two gears included in the gear set 22 according to the rotation speed of the rotary crank member 14 and the rotation speed ratio between the output rotation speeds of the gear set 22, and determine a game effect released by a corresponding special weapon according to the determined relative position relationship between at least two gears included in the gear set 22.

Based on this, in one embodiment, the second type of sensor is connected to the rotating crank member 14 and the gear set 22; the second type of sensor may be used to identify the rotational speed of the rotary crank member and the output rotational speed of the gear set.

In practical application, in order to save the computing resources of the terminal, a processing module may be disposed in the machine gun simulation apparatus, and after the second sensor identifies the rotation speed of the rotary crank member 14 and the output rotation speed of the gear set 22, the processing module may determine the relative position relationship between at least two gears included in the gear set 22 according to the rotation speed ratio between the rotation speed of the rotary crank member 14 and the output rotation speed of the gear set 22, and send the determined relative position relationship between at least two gears included in the gear set 22 to the terminal through a communication module; the terminal can determine the playing effect of the corresponding special weapon release directly from the relative position relationship between at least two gears comprised by the gear train 22.

Based on this, in an embodiment, the apparatus may further include a processing module; wherein the content of the first and second substances,

the processing module is configured to determine a rotation speed ratio between the rotation speed of the rotary crank member 14 and the output rotation speed of the gear set 22, and determine a relative position relationship between at least two gears included in the gear set 22 according to the determined rotation speed ratio;

the communication module is further configured to send the relative position relationship between at least two gears included in the gear set 22 to the terminal.

In practical application, the second sensor may be the motor encoder 41 shown in fig. 4; the motor encoder 41 may include a motor encoder a and a motor encoder B; the motor encoder a is used to detect (i.e., identify) the rotational speed of the rotary handle member 14; the motor encoder B is used to detect (i.e., identify) the output speed of the gear set 22.

In practical applications, the gun body 11 may be provided with a third type of sensor for detecting a state change of the gun body 11 when rotated by a user, and the state change of the gun body 11 when rotated by the user may be a rotation angular velocity of the gun body 11 based on at least one direction when rotated.

Based on this, in an embodiment, a third type of the sensors may be used to identify the rotational angular velocity of the gun body 11 based on at least one direction when the gun body is rotated.

Specifically, when detecting that the gun body 11 is rotated, the third type of sensor may generate third type of state change information representing a process in which the gun body 11 is rotated, and send the generated third type of state change information to the communication module; the third type of state change information at least includes a rotation angular velocity based on at least one direction when the gun body 11 is rotated; the communication module sends the received third-type state change information to the terminal; after receiving the third type of state change information, the terminal may determine a relative position relationship between the gun body 11 and the support member 12 according to a rotational angular velocity of the gun body 11 in at least one direction when being rotated, and determine and present a corresponding game effect according to the relative position relationship between the gun body 11 and the support member 12; such as a game effect aimed at in the game, which may include the location of the sight window and sight bead.

In practical applications, in order to save the computing resources of the terminal, a processing module may be disposed in the machine gun simulation apparatus, after the third type sensor identifies the rotational angular velocity based on at least one direction when the gun body 11 is rotated, the processing module may determine the relative positional relationship between the gun body 11 and the support member 12 according to the rotational angular velocity based on at least one direction when the gun body 11 is rotated, and send the determined relative positional relationship between the gun body 11 and the support member 12 to the terminal through a communication module; the terminal can determine and present the corresponding game effect directly from the relative positional relationship between at least two gears comprised by the gear train 22.

the processing module is used for determining the relative position relationship between the gun body 11 and the supporting component 12 according to the rotating angular speed of the gun body 11 based on at least one direction when being rotated;

the communication module is further configured to send the relative position relationship between the gun body 11 and the support member 12 to the terminal.

In practical applications, the third sensor may be a gyro sensor 42 shown in fig. 4, and the gyro sensor 42 can detect the rotational angular velocity of the gun body 11 based on three axes (i.e., six directions). Of course, the research and development personnel can also use sensors such as a direction sensor according to the design requirements.

Based on this, in an embodiment, the third type of sensor may be a gyroscope sensor.

In actual application, the processing module can be recorded as a controller; the processing module may be provided in the same square-shaped component as the gyro sensor 42 shown in fig. 4.

In practical applications, one communication module may be provided in each of the first type sensor, the second type sensor and the third type sensor (when the apparatus includes the processing module and the processing module processes information identified by the second type sensor and the third type sensor, one communication module may be provided in the processing module instead of the second type sensor and the third type sensor); one of the three communication modules is a master communication module, and the other communication modules except the master communication module are slave communication modules; the main communication module can directly send the received state change information to the terminal; the slave communication module needs to send the received state change information to the master communication module, and then the master communication module sends the received state change information to the terminal.

In practical application, the communication module can be a Bluetooth communication module, a Wi-Fi communication module and the like.

Based on this, in one embodiment, the communication module may be a bluetooth communication module.

In practical application, after the communication module of the machine gun simulation device sends the received state change information to the terminal, the terminal can judge the received state change information by using a preset rule, and the game effect corresponding to the corresponding state change information is determined and displayed according to the judgment result. The preset rules can be set by research personnel according to design requirements, and can also be set by users according to personal habits; for example, the preset rule may include: the process of pressing the button rocker part 13 corresponds to the game effect of common bullet shooting in the AR body feeling shooting game; the process of pushing the button rocker part 13 corresponds to the game effect of switching weapons in the AR somatosensory shooting game; the process of rotating the rotary rocking handle component 14 corresponds to the game effect released by a special weapon in the AR body feeling shooting game; the process of rotating the gun body 11 corresponds to the game effect aimed in the AR body sensing shooting game, namely the positions of a window and a sight bead in the AR body sensing shooting game can be determined according to the process of rotating the gun body 11.

The embodiment of the utility model provides a machine gun simulation device, including the rifle body 11 of machine gun shape, with the support component 12 of the rotating connection of rifle body 11, the button rocker part 13 of simulation shooting operation and weapon switching operation, the rotatory rocking handle part 14 of simulation special weapon release operation, sensor and communication module; wherein the gun body 11 is arranged on the support part 12; the button rocker part 13, the rotary rocking handle part 14, the sensor and the communication module are all arranged on the gun body 11; the sensor is connected with the button rocker part 13 and the rotary rocking handle part 14 and is used for identifying the state changes of the button rocker part 13, the rotary rocking handle part 14 and the gun body 11; the communication module is used for sending the information identified by the sensor to a terminal; therefore, the state change of the corresponding part of the machine gun simulation device is not required to be detected through a sensor on the terminal, namely, the terminal is not required to be installed on the machine gun simulation device when a user runs a game, and the convenience of the machine gun simulation device is improved; and, need not to set up the entity bullet in the machine gun analogue means, the terminal can present corresponding recreation effect according to the state change of the corresponding part of machine gun analogue means, has improved machine gun analogue means's security and interest, and then has promoted user experience.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims

1. A machine gun simulator, comprising: the device comprises a gun body in a machine gun shape, a support component rotationally connected with the gun body, a button rocker component simulating shooting operation and weapon switching operation, a rotary rocking handle component simulating special weapon releasing operation, a sensor and a communication module; wherein the content of the first and second substances,

2. The device of claim 1, wherein a first type of sensor of the sensors is coupled to the button rocker member for identifying a change in state of the button rocker member when depressed or pushed.

3. The apparatus of claim 1, wherein a second type of said sensors is connected to said rotary handle member for identifying a change in state of said rotary handle member when rotated.

4. The apparatus of claim 3, further comprising: the gear set is connected with the rotary rocking handle component, and the barrel component is connected with the gear set; wherein the content of the first and second substances,

5. The apparatus of claim 4, wherein said second type of sensor is connected to said rotary crank member and said gear set; the second type of sensor is used to identify the rotational speed of the rotating crank member and the output rotational speed of the gear set.

6. The apparatus of claim 5, further comprising a processing module; wherein the content of the first and second substances,

7. The device of claim 5, wherein the gear train includes at least two gears, the relative positional relationship of which is operatively adjustable to adjust the rotational speed of the barrel component.

8. The device of claim 4 wherein said gear set and said rotating crank member are disposed on opposite sides of said gun body.

9. The device of claim 4, wherein the barrel member is connected to the gear train by a rotating shaft; when the rotary rocking handle component is rotated, the rotating shaft is driven to rotate through the gear set, and the barrel component is driven to rotate through the rotating shaft.

10. The apparatus of claim 1 wherein a third type of said sensors is used to identify an angular velocity of rotation of said gun body based on at least one direction when said gun body is rotated.

11. The apparatus of claim 10, further comprising a processing module; wherein the content of the first and second substances,

12. The apparatus of claim 10, wherein the third type of sensor is a gyroscope sensor.

13. The apparatus of claim 1, wherein the communication module is a bluetooth communication module.

14. The apparatus of claim 1 wherein the gun body is a wood splice.