CN113304468A

CN113304468A - Simulated flight controller

Info

Publication number: CN113304468A
Application number: CN202110698942.1A
Authority: CN
Inventors: 郭斌涛; 喻伟
Original assignee: Shenzhen Dashine Intelligent Control Technology Co ltd
Current assignee: Shenzhen Dashine Intelligent Control Technology Co ltd
Priority date: 2021-06-23
Filing date: 2021-06-23
Publication date: 2021-08-27
Anticipated expiration: 2041-06-23
Also published as: CN113304468B

Abstract

The invention discloses a simulated flight controller which comprises a base, an operating rod and a control console, wherein the control console is connected to one side of the base in a clamping mode, the operating rod is connected to a rotating mechanism of the base, a translation mechanism for the rotating mechanism to move back and forth is arranged in a shell of the base, the movable end of the translation mechanism is connected with the rotating mechanism, the base is respectively connected and communicated with the operating rod and the control console through serial ports, and the base is connected and communicated with a PC (personal computer) end through a USB (universal serial bus) interface. According to the invention, through serial port communication, a player can play airplane flight games on a computer by operating the console and the joystick, so that the sense of reality of airplane flight driving actions is simulated, and the experience of the player in the airplane flight games is improved.

Description

Simulated flight controller

Technical Field

The invention relates to the field of game accessories, in particular to a simulated flight controller.

Background

In recent years, the game industry has developed rapidly, various games have appeared in endlessly, and game merchants have developed controllers for controlling various games. At present, the controller of the flying game on the market still uses the traditional game controller mode, the function compatibility is insufficient, the user can not experience actions such as airplane lifting and circling for flying the airplane, and the user experience is poor.

The above disadvantages need to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a simulated flight controller.

The technical scheme of the invention is as follows:

the invention provides a simulated flight controller which comprises a base, an operating rod and a control console, wherein the control console is connected to one side of the base in a clamping mode, the operating rod is connected to a rotating mechanism of the base, a translation mechanism for the rotating mechanism to move back and forth is arranged in a shell of the base, the movable end of the translation mechanism is connected with the rotating mechanism, the base is respectively connected and communicated with the operating rod and the control console through serial ports, and the base is connected and communicated with a PC (personal computer) end through a USB (universal serial bus) interface.

According to the invention of the above scheme, the rotating mechanism comprises a rotating shaft and a rotating shaft supporting piece, one end of the rotating shaft is rotatably connected with the rotating shaft supporting piece, the other end of the rotating shaft is connected with the operating rod, and the rotating shaft supporting piece is connected with the movable end of the translation mechanism;

the novel magnetic field sensor is characterized in that a long magnetic strip, a Hall sensor and a base PCB are arranged in the shell of the base, the Hall sensor is fixed on the rotating shaft supporting piece, the sensing surface of the Hall sensor is opposite to the long magnetic strip, an included angle is formed between the long magnetic strip and the axis of the rotating shaft, and the base PCB is electrically connected with the Hall sensor.

Furthermore, the translation mechanism comprises a linear guide rod, a sliding block, a first return spring and a second return spring, the sliding block, the first return spring and the second return spring are all sleeved on the linear guide rod, the sliding block is arranged between the first return spring and the second return spring, the linear guide rod is fixed with the bottom shell of the base, and the sliding block is fixed with the rotating shaft supporting piece.

Furthermore, an audio jack, a first USB interface, a second USB interface and an information panel are arranged on the base, and the audio jack, the first USB interface, the second USB interface and the information panel are all electrically connected with the base PCB.

Further, the control rod includes preceding shell and backshell, preceding shell is provided with left handle, right handle, LCD module and function button, be provided with the axis of rotation sleeve on the backshell, axis of rotation sleeve cover is established in the axis of rotation, preceding shell with be provided with rotatory potentiometre and control rod PCB board between the backshell, rotatory potentiometre is located on the axis of rotation, control rod PCB board respectively with left handle the right handle the LCD module the function button rotatory potentiometre reaches base PCB board electric connection.

Further, casing one side of control cabinet is provided with the correction wheel, the casing top of control cabinet is provided with a plurality of plug-type handles, and each one side of plug-type handle all is provided with the quadrant panel, the casing of control cabinet openly is provided with array button and a plurality of rotation type handle, be provided with the control cabinet PCB board in the casing of control cabinet, the control cabinet PCB board respectively with correct wheel, a plurality of plug-type handle array button, a plurality of rotation type handle reaches base PCB board electric connection.

Furthermore, the push-pull type handle comprises a handle rotating shaft and a handle arm, the handle arm is detachably connected with the handle rotating shaft, and the quadrant panel is detachably connected with the shell of the console.

Furthermore, the end of the push-pull handle is in the shape of an inverted ladder, a concave center, a wave or a concave surface, and the end of the rotary handle is in the shape of an inner star, a cylinder or a star.

According to the scheme, the bottom shell of the base is provided with the table type mounting clamp, the table type mounting clamp comprises a reversed V-shaped support, a C-shaped fixing clamp and a fixing screw, the reversed V-shaped support is fixed in the bottom shell of the base, a first screw hole is formed in the top of the reversed V-shaped support, a second screw hole is formed in the top of the C-shaped fixing clamp, the fixing screw sequentially penetrates through the first screw hole and the second screw hole to enable the C-shaped fixing clamp to be fixed on the reversed V-shaped support, and the top shell of the base is provided with a dismounting hole matched with the fixing screw.

Furthermore, the top shell of base is provided with the extracting tool standing groove, extracting tool has been placed in the extracting tool standing groove, the top shell of base still is provided with the upper cover, the upper cover with the top shell of base can be dismantled and be connected, the upper cover the dismounting hole with the extracting tool standing groove.

According to the invention of the scheme, one side of the base is provided with the rotating bayonet, one side of the console is provided with the rotating clamping piece matched with the rotating bayonet, and the console is clamped on the rotating bayonet of the base through the rotating clamping piece.

The invention according to the scheme has the advantages that:

1. the base is respectively connected and communicated with the control rod and the control console through the serial port, the base is connected and communicated with the PC end through the USB interface, and through the serial port communication, a player can play airplane flight games on a computer by operating the control console and the control rod, so that the sense of reality of airplane flight driving actions is simulated, and the experience of the player flight games is improved;

2. through the translation mechanism and the rotation mechanism, a player can truly simulate actions such as airplane lifting and hovering through left and right rotation of the operating rod or forward and backward movement of the operating rod when the device is used, meanwhile, the left and right rotation of the operating rod depends on the output signal of the rotary positioner, and the forward and backward movement depends on the induction of the Hall sensor and the magnet to output the signal; the forward and backward translation distance of the operating rod is determined by the length of the magnet, and the longer the length of the magnet is, the larger the translation range of the operating rod is.

3. The translation mechanism is simple in structure, can stably drive the operating rod to move back and forth, and can reset the operating rod after the operating rod is loosened;

4. the bottom shell of the base is provided with a table type mounting clamp, the base can be firmly fixed on a table top through the table type mounting clamp, meanwhile, the top shell of the base is provided with a disassembling tool placing groove, a disassembling tool is placed in the disassembling tool placing groove, a player can conveniently store the disassembling tool through the disassembling tool placing groove, and the player can be effectively prevented from losing the disassembling tool;

5. through the setting of rotatory bayonet socket and rotatory fastener, can make the quick fixing of control cabinet on the base.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic frame diagram of the present invention;

FIG. 3 is an internal view of the base of the present invention;

FIG. 4 is an exploded view of the structure of the top shell of the base of the present invention;

FIG. 5 is an exploded view of the desktop mounting clip of the present invention;

FIG. 6 is a schematic structural view of the table mount clip of the present invention;

FIG. 7 is a schematic structural view of a base according to the present invention;

FIG. 8 is a schematic view of another embodiment of the base of the present invention;

FIG. 9 is a schematic frame diagram of the base of the present invention;

FIG. 10 is an exploded view of the construction of the joystick of the present invention;

FIG. 11 is a schematic frame diagram of the joystick of the present invention;

FIG. 12 is a schematic view of the console of the present invention;

fig. 13 is a schematic frame diagram of the console of the present invention.

In the context of the figures, it is,

1. a base; 101. a rotating mechanism; 1011. a rotating shaft; 1012 rotating the shaft support; 102. a translation mechanism; 1021. a linear guide rod; 1022. a slider; 1023. a first return spring; 1024. a second return spring; 103. a long magnetic strip; 104. a Hall sensor; 105. a bottom case; 106. a table mounting clip; 1061. a bracket shaped like a Chinese character 'ji'; 1062. a C-shaped fixing clamp; 1063. fixing screws; 1064. a first screw hole; 1065. a second screw hole; 1066. a non-slip mat; 107. a top shell; 108. disassembling the hole; 109. a disassembling tool placing groove; 110. a removal tool; 111. an upper cover; 112. an audio jack; 113. a first USB interface; 114. a second USB interface; 115. an information panel; 116. a first MCU module; 117. a USB interface module; 118. a first power supply module; 119. an encryption module; 120. an audio module; 121. a first LED module; 122. a first ADC module; 123. a key module; 124. rotating the bayonet;

2. a joystick; 201. a front housing; 202. a rear housing; 203. a left handle; 204. a right handle; 205. an LCD module; 206. function keys; 207. a rotating shaft sleeve; 208. a rotary potentiometer; 209. a second MCU module; 210. a second power supply module; 211. a second LED module; 212. a second ADC module;

3. a console; 301. a correction wheel; 302. a push-pull handle; 303. a quadrant panel; 304. an array button; 305. a rotary handle; 306. a third MCU module; 307. a third power supply module; 308. a third LED module; 309. a third ADC module; 310. rotating the clamping piece; 3011. a grating module;

4. and a PC terminal.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the terms "disposed," "connected," "fixed," and the like are used in a broad sense, and for example, the terms "disposed," "connected," and "fixed" may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and should not be construed as limiting the technical solution. The terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "plurality" is two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present invention provides a simulated flight controller, which includes a base 1, an operating lever 2 and a console 3, wherein the console 3 is clamped on one side of the base 1, the operating lever 2 is connected to a rotating mechanism 101 of the base 1, a translation mechanism 102 for the rotating mechanism 101 to move back and forth is disposed in a housing of the base 1, a movable end of the translation mechanism 102 is connected to the rotating mechanism 101, and a player can rotate the operating lever 2 left and right or move the operating lever 2 back and forth to realize actions such as airplane lifting and circling when using the simulated flight controller, through the translation mechanism 102 and the rotating mechanism 101. The base 1 is connected with the control rod 2 and the control console 3 through the serial port respectively and is communicated, the base 1 is connected with the PC end 4 through the USB interface and is communicated, and through serial port communication, a player can play airplane flight games on a computer by operating the control console 3 and the control rod 2, so that the sense of reality of airplane flight driving actions is simulated, and the experience of the player flight games is improved.

Referring to fig. 3, in the present embodiment, the rotating mechanism 101 includes a rotating shaft 1011 and a rotating shaft support 1012, one end of the rotating shaft 1011 is rotatably connected to the rotating shaft support 1012, the other end of the rotating shaft 1011 is connected to the joystick 2, and the rotating shaft support 1012 is connected to the movable end of the translating mechanism 102. The long magnetic stripe 103, the Hall sensor 104 and the base PCB are arranged in the shell of the base 1, the Hall sensor 104 is fixed on the rotating shaft supporting piece 1012, the sensing surface of the Hall sensor 104 is arranged opposite to the long magnetic stripe 103, an included angle exists between the long magnetic stripe 103 and the axis of the rotating shaft 1011, the included angle can be 3.9 degrees, the base PCB is electrically connected with the Hall sensor 104, and when the operating lever 2 moves backwards to the end, the distance between the Hall sensor 104 and the long magnetic stripe 103 is the nearest; when the joystick 2 is moved forward to the end, the hall sensor 104 is farthest from the long magnetic strip 103. The operating rod 2 moves back and forth, so that the hall sensor 104 can be driven to move back and forth, the distance between the hall sensor 104 and the long magnetic strip 103 is changed, and the hall sensor 104 outputs signals.

In one embodiment, when the joystick 2 moves forward, the hall sensor 104 is farther away from the long magnetic strip 103, and the hall sensor 104 sends out a rising control signal; when the joystick 2 moves backward, the hall sensor 104 becomes closer to the long magnetic stripe 103, and the hall sensor 104 sends a down control signal. Of course, in other embodiments, the hall sensor 104 may issue a down control signal when the joystick 2 is moved forward; when the joystick 2 moves backward, the hall sensor 104 may send a rising control signal, which is not limited by the present invention and may be adjusted by those skilled in the art according to actual situations.

Referring to fig. 3, further, the translation mechanism 102 includes a linear guide rod 1021, a sliding block 1022, a first return spring 1023, and a second return spring 1024, wherein the sliding block 1022, the first return spring 1023, and the second return spring 1024 are all sleeved on the linear guide rod 1021, the sliding block 1022 is disposed between the first return spring 1023 and the second return spring 1024, the linear guide rod 1021 is fixed to the bottom case 105 of the base 1, and the sliding block 1022 is fixed to the rotation shaft support 1012. When the operating rod 2 moves forward, the sliding block 1022 is driven to move forward along the linear guide rod 1021, so that the first return spring 1023 is extruded to generate elastic force, and after the operating rod 2 is released, the elastic force of the first return spring 1023 resets the operating rod 2; when the operating lever 2 moves backward, the slider 1022 is driven to move backward along the linear guide 1021, so that the second return spring 1024 is pressed to generate an elastic force, and after the operating lever 2 is released, the operating lever 2 is reset by the elastic force of the second return spring 1024. The translation mechanism 102 is simple in structure, can stably drive the operating rod 2 to move back and forth, and can reset the operating rod 2 after the operating rod 2 is loosened.

Referring to fig. 4 to 6, in the present embodiment, a bottom shell 105 of the base 1 is provided with a table-type mounting clip 106, and the base 1 can be firmly fixed on a table by the table-type mounting clip 106. The desk-top mounting clip 106 includes a support 1061 shaped like a Chinese character 'ji', a C-shaped fixing clip 1062 and a fixing screw 1063, the support 1061 shaped like a Chinese character 'ji' is fixed in the bottom shell 105 of the base 1, a first screw hole 1064 is provided at the top of the support 1061 shaped like a Chinese character 'ji', a second screw hole 1065 is provided at the top of the fixing clip 1062 shaped like a Chinese character 'ji', and the fixing screw 1063 sequentially passes through the first screw hole 1064 and the second screw hole 1065 to fix the fixing clip 1062 shaped like a Chinese character 'ji' on the support 1061 shaped like a Chinese character 'ji'. The bottom of the C-shaped fixing clip 1062 is provided with a non-slip pad 1066, which is helpful to fix the base 1 on a table more firmly. The top shell 107 of the base 1 is provided with a dismounting hole 108 matched with the fixing screw 1063, when in use, the fixing screw 1063 can be adjusted by a dismounting tool 110 penetrating through the dismounting hole 108, so that the C-shaped fixing clamp 1062 clamps the desktop, thereby firmly fixing the base 1 on the desktop.

Referring to fig. 6, further, the top case 107 of the base 1 is provided with a dismounting tool placing groove 109, a dismounting tool 110 is placed in the dismounting tool placing groove 109, the dismounting tool placing groove 109 facilitates a player to store the dismounting tool 110, and the player can effectively avoid losing the dismounting tool 110. Meanwhile, the top case 107 of the base 1 is further provided with an upper cover 111, the upper cover 111 is detachably connected to the top case 107 of the base 1, and the upper cover 111 covers the removal hole 108 and the removal tool placement groove 109.

Referring to fig. 7 and 8, in the present embodiment, an audio jack 112, a first USB interface 113, a second USB interface 114 and an information panel 115 are disposed on the base 1, the audio jack 112, the first USB interface 113, the second USB interface 114 and the information panel 115 are respectively electrically connected to the base PCB, and the audio jack 112 is used for connecting an external audio device; the first USB interface 113 is used for connecting the console 3; the second USB interface 114 is used for connecting the PC terminal 4; the information panel 115 is used to display critical instruments and warning lights.

Referring to fig. 9, specifically, the base PCB is provided with a first MCU module 116, a USB interface module 117, a first power module 118, an encryption module 119, an audio module 120, a first LED module 121, a first ADC module 122 and a key module 123, the first MCU module 116 is electrically connected to the USB interface module 117, the first power module 118, the encryption module 119, the audio module 120, the first LED module 121, the first ADC module 122, the key module 123 and the information panel 115, the USB interface module 117 is also electrically connected to the first USB interface 113 and the second USB interface 114, and the audio module 120 is also electrically connected to the audio jack 112. The encryption module 119 is used for encrypting data, so that the communication security is improved; the audio module 120 is used for audio data processing (audio input and output, etc.); the first LED module 121 is used for indicating and reminding key operation of the base 1; the first ADC module 122 is configured to convert the voltage signal after the key operation into a corresponding digital signal.

Referring to fig. 10, in the present embodiment, the joystick 2 includes a front shell 201 and a rear shell 202, the front shell 201 is provided with a left handle 203, a right handle 204, an LCD module 205 and function keys 206, the LCD module 205 is a liquid crystal display for simulating a display screen scene of a cockpit of an aircraft flight and visualizing an aircraft flight operation; the rear shell 202 is provided with a rotating shaft sleeve 207, and the rotating shaft sleeve 207 is sleeved on the rotating shaft 1011, so that the operating rod 2 can rotate along the rotating shaft 1011. A rotary potentiometer 208 is arranged between the front shell 201 and the rear shell 202, the rotary potentiometer 208 is positioned on the axis of the rotating shaft 1011, and when the operating rod 2 rotates, an adjusting button on the rotary potentiometer 208 is driven to change the resistance value, so that a signal is output.

A control lever PCB is further disposed between the front case 201 and the rear case 202, and the control lever PCB is electrically connected to the left handle 203, the right handle 204, the LCD module 205, the function keys 206, the rotary potentiometer 208, and the base PCB, respectively. Referring to fig. 11, specifically, the joystick PCB includes a second MCU module 209, a second power module 210, a second LED module 211 and a second ADC module 212, where the second MCU module 209 is electrically connected to the second power module 210, the second LED module 211, the second ADC module 212, the left handle 203, the right handle 204, the LCD module 205, the function keys 206 and the first MCU module 116, respectively; the second LED module 211 is used for indicating and reminding the key operation of the joystick 2.

Referring to fig. 12, in the present embodiment, a correction wheel 301 is provided on one side of the housing of the console 3, and the correction wheel 301 is used to maintain the coordinated flight motion without pilot input, and is mainly used for up-down interval adjustment and elevator downward/upward correction. A grating module 3011 is arranged inside the correction wheel 301, and the grating module 3011 is a photoelectric detection element made of light transmission and diffraction phenomena and is used for matching with the correction wheel 301, and the correction wheel 301 rolls a small grid for accurate counting; the top of the casing of the console 3 is provided with a plurality of push-pull handles 302, the end of the push-pull handles 302 is in the shape of an inverted trapezoidal platform, a central concave type, a wavy type or a concave type, and the like, and one side of each push-pull handle 302 is provided with a quadrant panel 303, which is convenient for a player to adjust the rotation amplitude of each push-pull handle 302. The front surface of the shell of the console 3 is provided with an array button 304 and a plurality of rotary handles 305, the end shape of the rotary handle 305 is inner star type, cylindrical type or star type, etc., and the player can customize the functions of the array button 304, the plurality of rotary handles 305 and the plurality of push-pull handles 302.

A control console PCB is arranged in the casing of the control console 3, and the control console PCB is electrically connected with the grating module 3011, the push-pull handles 302, the array button 304, the rotary handles 305 and the base PCB in the correction wheel 301. Referring to fig. 13, specifically, the console PCB includes a third MCU module 306, a third power module 307, a third LED module 308 and a third ADC module 309, the third MCU module 306 is electrically connected to the third power module 307, the third LED module 308, the third ADC module 309, the grating module 3011 in the correction wheel 301, the push-pull handles 302, the array button 304, the rotary handles 305 and the first MCU module 116, respectively, and the third LED module 308 is configured to indicate and remind a key operation of the console 3.

In one embodiment, the push-pull handle 302 comprises a handle rotation shaft and a handle arm, the handle arm is detachably connected with the handle rotation shaft, and the quadrant panel 303 is detachably connected with the shell of the console 3, so that a player can conveniently replace the handle skin of the push-pull handle 302 and the quadrant panel 303 according to the requirement of the player.

Referring to fig. 8 and 12, in the present embodiment, a rotating bayonet 124 is disposed on one side of the base 1, a rotating fastener 310 matched with the rotating bayonet 124 is disposed on one side of the console 3, the console 3 is fastened to the rotating bayonet 124 of the base 1 through the rotating fastener 310, and the console 3 can be quickly fixed to the base 1 through the rotating bayonet 124 and the rotating fastener 310.

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

The invention is described above with reference to the accompanying drawings, which are illustrative, and it is obvious that the implementation of the invention is not limited in the above manner, and it is within the scope of the invention to adopt various modifications of the inventive method concept and technical solution, or to apply the inventive concept and technical solution to other fields without modification.

Claims

1. The simulated flight controller is characterized by comprising a base, an operating rod and a control console, wherein the control console is connected to one side of the base in a clamping mode, the operating rod is connected to a rotating mechanism of the base, a translation mechanism for the rotating mechanism to move back and forth is arranged in a shell of the base, the movable end of the translation mechanism is connected with the rotating mechanism, the base is respectively connected with the operating rod and the control console through serial ports for communication, and the base is connected with a PC (personal computer) end through a USB (universal serial bus) interface for communication.

2. The simulated flight controller of claim 1, wherein the rotation mechanism comprises a rotation shaft and a rotation shaft support, one end of the rotation shaft is rotatably connected with the rotation shaft support, the other end of the rotation shaft is connected with the joystick, and the rotation shaft support is connected with the movable end of the translation mechanism;

3. The simulated flight controller of claim 2, wherein the translation mechanism comprises a linear guide rod, a sliding block, a first return spring and a second return spring, the sliding block, the first return spring and the second return spring are all sleeved on the linear guide rod, the sliding block is arranged between the first return spring and the second return spring, the linear guide rod is fixed with a bottom shell of the base, and the sliding block is fixed with the rotating shaft support.

4. The simulated flight controller of claim 2, wherein an audio jack, a first USB interface, a second USB interface and an information panel are disposed on the base, and the audio jack, the first USB interface, the second USB interface and the information panel are all electrically connected to the base PCB.

5. The simulated flight controller of claim 2, wherein the joystick comprises a front shell and a rear shell, the front shell is provided with a left handle, a right handle, an LCD module and a function button, the rear shell is provided with a rotating shaft sleeve, the rotating shaft sleeve is sleeved on the rotating shaft, a rotating potentiometer and a joystick PCB are arranged between the front shell and the rear shell, the rotating potentiometer is located on the axis of the rotating shaft, and the joystick PCB is respectively electrically connected with the left handle, the right handle, the LCD module, the function button, the rotating potentiometer and the base PCB.

6. The simulated flight controller of claim 2, wherein a correction wheel is arranged on one side of the shell of the console, a plurality of push-pull handles are arranged on the top of the shell of the console, a quadrant panel is arranged on one side of each push-pull handle, an array button and a plurality of rotary handles are arranged on the front surface of the shell of the console, a console PCB is arranged in the shell of the console, and the console PCB is electrically connected with the correction wheel, the push-pull handles, the array button, the rotary handles and the base PCB respectively.

7. The simulated flight controller of claim 6, wherein the push-pull handle comprises a handle rotation shaft and a handle arm, the handle arm being removably connected to the handle rotation shaft, the quadrant panel being removably connected to the housing of the console.

8. The simulated flight controller of claim 1, wherein the bottom case of the base is provided with a table type mounting clip, the table type mounting clip comprises a n-shaped bracket, a C-shaped fixing clip and a fixing screw, the n-shaped bracket is fixed in the bottom case of the base, a first screw hole is formed in the top of the n-shaped bracket, a second screw hole is formed in the top of the C-shaped fixing clip, the fixing screw sequentially penetrates through the first screw hole and the second screw hole, so that the C-shaped fixing clip is fixed on the n-shaped bracket, and a dismounting hole matched with the fixing screw is formed in the top case of the base.

9. The simulated flight controller of claim 8, wherein the top shell of the base is provided with a removal tool placement slot in which a removal tool is placed, and the top shell of the base is further provided with an upper cover detachably connected to the top shell of the base, and the upper cover covers the removal hole and the removal tool placement slot.

10. The simulated flight controller according to claim 1, wherein a rotary bayonet is arranged on one side of the base, a rotary clamping piece matched with the rotary bayonet is arranged on one side of the console, and the console is clamped on the rotary bayonet of the base through the rotary clamping piece.