A controller with switchable trigger button triggering mode

By setting magnets and Hall effect sensors on the game controller, and using a switch to change the trigger button triggering method, the problem of users needing to change controllers to experience different triggering methods is solved, thus improving the gaming experience.

CN224442111UActive Publication Date: 2026-07-03LITESTAR ELECTRONICS TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LITESTAR ELECTRONICS TECH CO LTD
Filing Date
2025-09-25
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Users who want to experience different trigger button triggering methods need to change to different game controllers, which affects the gaming experience.

Method used

Design a handle with switchable trigger button triggering mode. By setting magnets and Hall effect sensors on the handle body, the trigger button triggering mode can be changed by sliding the switching element, so that it can switch between pure linear mode and pure micro-motion mode.

Benefits of technology

Switching between different trigger methods on a single controller enhances the user's gaming experience and meets diverse gaming needs.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224442111U_ABST
    Figure CN224442111U_ABST
Patent Text Reader

Abstract

This invention relates to the field of game controller technology and provides a game controller with a switchable trigger trigger mode. The game controller includes: a game controller body; a trigger button with a magnet and a trigger element; and a switch element installed inside the internal cavity of the game controller body. This invention utilizes a limiting groove on the game controller body to restrict the travel of the sliding part of the switch element extending from the game controller body. When the switch element is at its first extreme position, a Hall effect sensor detects the magnetic field generated by the magnet after the trigger button moves, thereby outputting a corresponding electrical signal and a linear travel value. When the switch element moves to its second extreme position, the Hall effect sensor is deactivated. Pressing the trigger button causes the trigger button to move, triggering the button switch and directly outputting a result. By switching the trigger button's trigger mode, it can be changed from outputting a linear travel value to directly outputting a result or value, thus meeting game requirements.
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Description

Technical Field

[0001] This utility model belongs to the field of game controller technology, and in particular relates to a game controller with switchable trigger button triggering mode. Background Technology

[0002] Trigger buttons are widely used in game controllers, including shooting games, racing games, flight simulators, action-adventure games, role-playing games, sports games, and multi-functional controls. These applications make trigger buttons an indispensable part of modern game controller design, providing players with a richer and more realistic gaming experience.

[0003] The role of trigger buttons in game controllers is mainly reflected in the following aspects: operation feedback, precise control, simulation of realistic actions, enhanced gaming experience, multi-functionality, and customizability. The structure of trigger buttons usually includes a trigger mechanism, spring mechanism, Hall sensor, vibration motor, etc. The design and function of trigger buttons are important components of game controllers, which directly affect the player's gaming experience and the accuracy of operation.

[0004] In existing technology, game controller triggers typically offer different trigger mechanisms when pressed. One is a purely linear mode, which detects the depth or intensity of the press and outputs a value within a linear, continuous range. The other is a purely micro-switch mode, which primarily identifies two states: fully pressed or fully released, and outputs an on or off signal or value, directly outputting the set value for the pressed value. Current game controllers use only one of these modes. If users want to experience different trigger trigger methods, they need to use different game controllers, thus impacting the user's gaming experience. Utility Model Content

[0005] The purpose of this utility model embodiment is to provide a gamepad with switchable trigger button triggering mode, which aims to solve the problem that if users want to experience different trigger button triggering modes, they need to change to different gamepads, thus affecting the user's gaming experience.

[0006] This utility model embodiment is implemented as follows: a handle with a switchable trigger button triggering mode, the handle with a switchable trigger button triggering mode includes a handle body, a trigger button, and a switching component:

[0007] The trigger button is located on the handle body and is equipped with a magnet and a trigger element. The handle body is equipped with a Hall effect sensor for detecting the magnetic field generated by the magnet, and the trigger element is used to trigger the button switch.

[0008] The switching element is slidably installed in the handle body. When the switching element moves to the first limit position, the Hall sensor is enabled so that the Hall sensor detects the magnetic field generated by the magnet moving with the trigger button, and outputs a corresponding electrical signal according to the magnitude of the detected magnetic field. When the switching element moves to the second limit position, the Hall sensor is turned off, and the trigger element on the trigger button can trigger the button switch.

[0009] Preferably, the trigger button is further provided with a keycap that is rotatably connected to the handle body. The keycap is provided with a baffle for restricting the movement of the keycap. The keycap is provided with a mounting cavity. The magnet and the trigger are arranged side by side. The magnet is installed on the back of the keycap and located in the mounting cavity. The trigger is located in the mounting cavity of the keycap.

[0010] Preferably, a circuit board is provided inside the handle body. The circuit board is electrically connected to the Hall sensor and the push-button switch. A trigger switch is provided on the circuit board. Moving the switching element causes the switching element to press down or avoid the trigger switch, thereby turning on or off the triggering mode of the Hall sensor.

[0011] Preferably, the handle body is further provided with a guide member, the guide member is connected to the handle body and located within the handle body, the guide member is located above the circuit board, the guide member is used to guide the movement of the switching member, the guide member is provided with a sliding groove, the sliding groove cooperates with the switching member, the inner wall of the sliding groove is provided with a first positioning groove and a second positioning groove, the first positioning groove and the second positioning groove are arranged side by side, the first positioning groove and the second positioning groove are used to position the switching member.

[0012] Preferably, the sliding part of the switching component is a rod-shaped structure, the sliding part extends out of the handle body and is located in the limiting groove, the switching component is provided with a positioning part located directly below the sliding part, the positioning part is a set of opposing plate-shaped structures, the positioning part is movably installed in the guide member, and the side of the positioning part is provided with a positioning protrusion that cooperates with the first positioning groove or the second positioning groove.

[0013] Preferably, the switching component is further provided with a first trigger part, the top surface of the first trigger part is sloping and the lower side faces the trigger part of the trigger button. When the trigger button is pressed, the trigger button drives the trigger part to move and the trigger part presses down on the first trigger part. The first trigger part is used to trigger the button switch.

[0014] Preferably, the switching component is further provided with a second trigger part, which is located between the positioning part and the first trigger part. The second trigger part is provided with a U-shaped groove. When the switching component is moved, the wall of the U-shaped groove is used to press down or avoid the trigger switch on the circuit board, thereby turning on or off the trigger mode of the trigger key Hall detection component.

[0015] Preferably, the handle body is provided with a front shell and a bottom shell. The front shell and the bottom shell are connected by a fastener, and a cavity for installing the trigger button, circuit board and switching component is formed between the front shell and the bottom shell. The bottom shell is provided with a limiting groove, which is used to limit the movement stroke of the switching component. The limiting groove is a strip groove, and the direction of sliding of the switching component along the limiting groove is parallel to the direction of pressing the trigger button.

[0016] Preferably, the handle with switchable trigger button triggering mode further includes an operation component and a main control component. The operation component includes a joystick group, directional keys, and function keys. The joystick group and directional keys are mounted on the front shell, and the function keys are mounted on the bottom shell. The operation component and the trigger button are electrically connected to the main control component, and the main control component is used to control the operation component and the trigger button.

[0017] This utility model provides a controller with a switchable trigger button triggering mode. The controller features a trigger button and a switching element respectively mounted on the controller body. A limiting groove on the controller body restricts the travel of the sliding part of the switching element extending from the controller body. The trigger button has a magnet and a trigger element. When the switching element is in the first extreme position, the magnet and a Hall effect sensor are spaced apart, allowing the Hall effect sensor to detect the magnetic field generated by the magnet after the trigger button moves, thus outputting a corresponding electrical signal and a linear travel value. When the switching element moves to the second extreme position, the Hall effect sensor is deactivated. Pressing the trigger button causes the trigger element to move, triggering a button switch to directly output a result or value. By switching the trigger button's triggering mode, it can switch from outputting a linear travel value to directly outputting a result or value, thus meeting gaming needs and enhancing the user experience. Attached Figure Description

[0018] Figure 1 A perspective structural diagram of a handle with switchable trigger button triggering mode provided for an embodiment of this utility model;

[0019] Figure 2 A schematic diagram of the internal structure of a handle with switchable trigger button triggering mode provided for an embodiment of this utility model;

[0020] Figure 3 A schematic diagram showing the position of the switching element in a handle with a switchable trigger button triggering mode, provided for an embodiment of this utility model;

[0021] Figure 4 A schematic diagram of the position of the guide member in a handle with switchable trigger button triggering mode provided for an embodiment of this utility model;

[0022] Figure 5A schematic diagram showing the position of the Hall effect sensor in a handle with a switchable trigger button triggering mode, provided for an embodiment of this utility model;

[0023] Figure 6 This is a schematic diagram of the switching component in a handle with a switchable trigger button triggering mode, provided as an embodiment of the present utility model.

[0024] In the attached diagram: 1. Handle body; 11. Limiting groove; 12. Circuit board; 13. Guide component; 131. Slide groove; 14. Trigger switch; 2. Trigger button; 21. Magnet; 22. Trigger component; 23. Hall effect sensor; 24. Button switch; 25. Pin connector; 3. Switching component; 31. Sliding part; 32. First trigger part; 33. Positioning part; 34. U-shaped groove; 4. Operating component; 5. Main control component; 51. Main control board. Detailed Implementation

[0025] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be 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 present utility model and are not intended to limit the present utility model.

[0026] The specific implementation of this utility model will be described in detail below with reference to specific embodiments.

[0027] like Figure 1-2 The diagram shown is a structural diagram of a handle with a switchable trigger button 2 trigger mode provided by an embodiment of the present utility model. It includes: the trigger button 2 is disposed on the handle body 1, the trigger button 2 is provided with a magnet 21 and a trigger element 22, the handle body 1 is provided with a Hall effect sensor 23 for detecting the magnetic field generated by the magnet 21, and the trigger element 22 is used to trigger the button switch 24.

[0028] The switching element 3 is slidably installed inside the handle body 1. When the switching element 3 moves to the first limit position, the Hall sensor 23 is enabled so that the Hall sensor 23 can detect the magnetic field generated by the magnet 21 moving with the trigger button 2, and output a corresponding electrical signal according to the magnitude of the detected magnetic field. When the switching element 3 moves to the second limit position, the Hall sensor 23 is turned off, and the trigger element 22 on the trigger button 2 can trigger the button switch 24.

[0029] In this embodiment of the present invention, preferably, the controller with switchable trigger button 2 trigger mode can switch between different trigger button 2 trigger modes to meet the different user experiences during the game. This allows the user to achieve both a purely linear trigger mode and a purely micro-motion trigger mode on a single controller. The trigger mode of the controller can be switched via the switching element 3. The sliding part 31 of the switching element 3 moves along the length direction of the upper limit groove 11 of the controller body 1, while the limit groove 11 restricts the movement stroke of the switching element 3. The switching element 3 can move to two extreme positions. When the switching element 3 moves to the first extreme position, it switches to the trigger mode of the Hall sensor 23. At this time, the switching element 3 moves away from the button switch 24, and after the trigger button 2 is pressed by the user, the magnet 21 on the trigger button 2 will approach the Hall sensor 23, and the magnetic field generated by the movement of the magnet 21 will be detected by the Hall sensor 23. At this time, Hall effect sensor 23 can output an electrical signal based on the distance the trigger button 2 is pressed and the strength of the magnetic field of the detected magnet 21, and output a linear travel value that can be a range of 0-255. This is the output result of the trigger mode in pure linear mode. When the switch 3 moves to the second limit position, Hall effect sensor 23 is turned off. At this time, the switch 3 is located above the button switch 24. After the trigger button 2 is pressed by the user, the trigger element 22 on the trigger button 2 presses down the switch 3 located above the button switch 24. At this time, the button switch 24 is pressed and will directly output an electrical signal and output a value, which can output the value of the full travel 255. This is the output result of the trigger mode in pure micro-motion mode. By moving the switch 3, the position of the switch 3 can be changed so that the switch 3 is connected to the Hall effect sensor 23 or located above the button switch 24, so as to switch the trigger mode when the trigger button 2 is pressed.

[0030] In one embodiment of this utility model, a trigger button 2 and a switching element 3 are respectively disposed on the handle body 1. The movement stroke of the sliding part 31 of the switching element 3 extending out of the handle body 1 is limited by the limiting groove 11 on the handle body 1. At the same time, a magnet 21 and a trigger element 22 are disposed on the trigger button 2. When the switching element 3 is in the initial position, the magnet 21 and the Hall sensor 23 are separated so that the Hall sensor 23 can detect the magnetic field generated by the magnet 21 after the trigger button 2 moves, thereby outputting a corresponding electrical signal and a linear stroke value. When the switching element 3 moves to another position, the Hall sensor 23 is turned off. Pressing the trigger button 2 causes the trigger button 22 to move, thereby triggering the button switch 24 to directly output a result or value. By switching the trigger button 2 through the switching element 3, the triggering mode of the trigger button 2 can be switched from outputting a linear stroke mode to outputting a result or value mode, thereby meeting the game requirements and enhancing the user experience.

[0031] like Figure 1-6As shown, in a preferred embodiment of the present invention, the trigger button 2 is further provided with a keycap that is rotatably connected to the handle body 1. The keycap is provided with a baffle for restricting the movement of the keycap. The keycap is provided with a mounting cavity. The magnet 21 and the trigger 22 are arranged side by side. The magnet 21 is installed on the back of the keycap and located in the mounting cavity. The trigger 22 is located in the mounting cavity of the keycap.

[0032] In this embodiment of the utility model, preferably, the trigger button 2 is also provided with a keycap that is rotatably connected to the handle body 1. The keycap can be connected to the handle body 1 via a pivot, and a torsion spring is provided at the connection point. When the user presses the keycap, the Hall sensor 23 or the button switch 24 will be triggered and then reset, making it easy to trigger the next click. A baffle is provided on the keycap to limit the reset travel of the keycap. A trigger 22 and a magnet 21 can be installed in the mounting cavity on the back of the keycap, so that when the user presses the front of the keycap, the magnet 21 on the back of the keycap can approach the Hall sensor 23 or the trigger 22 in the mounting cavity of the keycap can press down the switching element 3, which in turn presses down the button switch 24.

[0033] like Figure 1-6 As shown, in a preferred embodiment of the present invention, a circuit board 12 is provided inside the handle body 1. The circuit board 12 is electrically connected to the Hall sensor 23 and the push button switch 24. A trigger switch 14 is provided on the circuit board 12. Moving the switching member 3 causes the switching member 3 to press down or avoid the trigger switch 14, thereby turning on or off the triggering mode of the Hall sensor 23.

[0034] In this embodiment of the present invention, preferably, a circuit board 12 is provided in the handle body 1, which is electrically connected to the Hall sensor 23 and the button switch 24 respectively. When the switching member 3 moves to the first limit position, the switching member 3 avoids the trigger switch 14. At this time, the trigger mode of the Hall sensor 23 is activated and the switching member 3 avoids the button switch 24. When the switching member 3 moves to the second limit position, the switching member 3 presses down the trigger switch 14. At this time, the trigger switch 14 of the Hall sensor 23 is turned off and the switching member 3 is located above the button switch 24, thereby switching to the trigger mode of the button switch 24.

[0035] like Figure 1-6As shown in the preferred embodiment of this utility model, a guide member 13 is also provided inside the handle body 1. The guide member 13 is connected to the handle body 1 and located inside the handle body 1. The guide member 13 is located above the circuit board 12. The guide member 13 is used to guide the movement of the switching member 3. The guide member 13 is provided with a sliding groove 131. The sliding groove 131 cooperates with the switching member 3. The inner wall of the sliding groove 131 is provided with a first positioning groove and a second positioning groove. The first positioning groove and the second positioning groove are arranged side by side. The first positioning groove and the second positioning groove are used to position the switching member 3.

[0036] In this embodiment of the present invention, preferably, a guide member 13 for guiding the movement of the switching member 3 is further provided inside the handle body 1. The guide member 13 can be a semi-enclosed structure with a groove 131. The guide member 13 is connected to the handle body 1 and located directly above the circuit board 12. The switching member 3 is inserted into the groove 131 of the guide member 13 to facilitate movement along the groove 131. The groove 131 can be a rectangular groove, and the length of the groove 131 can be the travel distance of the switching member 3. A first positioning groove and a second positioning groove are provided on the two opposite planes where the long side of the rectangular groove is located. The width and length of the first positioning groove and the second positioning groove can be the same. When the switching element 3 moves, the first positioning groove or the second positioning groove can be used to position the switching element 3. When the switching element 3 is engaged with the first positioning groove, the switching element 3 is located at the first extreme position. At this time, the trigger button 2 is triggered in a pure linear mode. When the switching element 3 is engaged with the second positioning groove, the switching element 3 is located at the second extreme position and the trigger switch 14 is pressed down to turn off the pure linear mode triggering. At this time, the trigger button 2 is triggered in a pure micro-motion mode.

[0037] like Figure 1-6 As shown, in a preferred embodiment of the present invention, the sliding part 31 of the switching member 3 is a rod-shaped structure. The sliding part 31 extends out of the handle body 1 and is located in the limiting groove 11. The switching member 3 is provided with a positioning part 33 located directly below the sliding part 31. The positioning part 33 is a set of opposing plate-shaped structures. The positioning part 33 is movably installed in the guide member 13. The side of the positioning part 33 is provided with a positioning protrusion that cooperates with the first positioning groove or the second positioning groove.

[0038] In this embodiment of the present invention, preferably, the switching component 3 can be an integral irregular structure, and the sliding part 31 of the switching component 3 extending out of the limiting groove 11 of the handle body 1 can be a rod-shaped structure with a certain length. The bottom of the sliding part 31 is connected to the positioning part 33 through a plate-shaped structure. The positioning part 33 is perpendicular to the plate-shaped structure connected to the sliding part 31. The positioning part 33 is composed of a group of plate-shaped structures arranged in parallel. The positioning part 33 is inserted into the slide groove 131 of the guide component 13, and a positioning protrusion that cooperates with the first positioning groove and the second positioning groove is provided on the side facing the slide groove 131. By sliding the sliding part 31 of the switching component 3, the positioning part 33 moves along the length direction of the slide groove 131 of the guide component 13 and the positioning protrusion cooperates with the first positioning groove to realize the switching to the pure linear mode. Moving it again makes the positioning protrusion cooperate with the second positioning groove to realize the switching to the pure micro-motion mode.

[0039] like Figure 1-6 As shown, in a preferred embodiment of the present invention, the switching component 3 is further provided with a first trigger part 32. The top surface of the first trigger part 32 is sloping and the lower side faces the trigger part 22 of the trigger button 2. When the trigger button 2 is pressed, the trigger button 2 drives the trigger part 22 to move and the trigger part 22 presses down on the first trigger part 32. The first trigger part 32 is used to trigger the button switch 24.

[0040] In this embodiment of the present invention, preferably, the switching member 3 is also provided with a protrusion with a certain slope. The protrusion has a certain height but is lower than the sliding part 31. When the switching member 3 moves and is located at the top of the button switch 24, when the user presses the trigger button 2, the trigger member 22 on the back of the trigger button 2 moves along the inclined direction of the top surface of the first trigger part 32 and presses down the first trigger part 32 at the higher point of the first trigger part 32. The switching member 3 presses down the button switch 24, and the button switch 24 is triggered by the first trigger part 32 so that the handle can directly output a result or a value.

[0041] like Figure 1-6 As shown, in a preferred embodiment of the present invention, the switching member 3 is further provided with a second trigger part, which is located between the positioning part 33 and the first trigger part 32. The second trigger part is provided with a U-shaped groove 34. When the switching member 3 is moved, the wall of the U-shaped groove 34 is used to press down or avoid the trigger switch 14 on the circuit board 12, thereby turning on or off the trigger mode of the Hall detection element 23 of the trigger button 2.

[0042] In this embodiment of the present invention, preferably, the switching member 3 may also be provided with a second triggering part between the positioning part 33 and the first triggering part 32. Utilizing the U-shaped groove 34 with its opening facing the trigger button 2, when the switching member 3 moves from the first extreme position toward the second extreme position and the button switch 24, the wall of the U-shaped groove 34 connects with the trigger switch 14 mounted on the circuit board 12, thereby disconnecting the signal transmission of the Hall sensor 23. At this time, the signal transmission mode of the button switch 24 is switched, which facilitates the circuit board 12 to control the signal output mode of different triggering modes. When the wall of the U-shaped groove 34 presses down on the trigger switch 14, the signal transmission of the Hall sensor 23 is turned off. The first triggering part 32 is located directly above the button switch 24. At this time, when the trigger button 2 is pressed down, the triggering member 22 presses down the first triggering part 32, causing the button switch 24 to be pressed down, thereby outputting a value.

[0043] like Figure 1-6 As shown, in a preferred embodiment of the present invention, the handle body 1 is provided with a front shell and a bottom shell. The front shell and the bottom shell are connected by a fixing member, and a cavity for installing the trigger button 2, the circuit board 12 and the switching member 3 is formed between the front shell and the bottom shell. The bottom shell is provided with a limiting groove 11, which is used to limit the movement stroke of the switching member 3. The limiting groove 11 is a strip groove, and the sliding direction of the switching member 3 along the limiting groove 11 is parallel to the direction of pressing the trigger button 2.

[0044] In this embodiment of the utility model, preferably, the handle body 1 mainly includes a front shell and a bottom shell. The front shell and the bottom shell are connected in place by a snap or screw connection, and a cavity is formed between the front shell and the bottom shell for installing the switching element 3, the circuit board 12 and the trigger button 2. A limiting groove 11 for limiting the movement stroke of the switching element 3 is provided on the bottom shell so that the user can switch the trigger mode when holding the handle. The limiting groove 11 can be an elliptical groove with a certain length, and the length direction of the limiting groove 11 can be the same as the direction when the user presses the trigger button 2 so that the Hall sensor 23 can detect the magnetic field strength of the magnet 21 on the back when the trigger button 2 moves, thereby outputting the corresponding stroke value range. At the same time, it is convenient to switch to pure micro-motion mode. When the trigger button 2 is pressed, the trigger 22 directly presses down the switching element 3, thereby causing the second trigger part of the switching element 3 to press down the button switch 24, thereby directly outputting the corresponding value.

[0045] like Figure 1-6 As shown in the preferred embodiment of this utility model, the handle with switchable trigger button 2 trigger mode further includes an operation component 4 and a main control component 5. The operation component 4 includes a joystick group, a directional key and a function key. The joystick group and the directional key are mounted on the front shell, and the function key is mounted on the bottom shell. The operation component 4 and the trigger button 2 are electrically connected to the main control component 5, and the main control component 5 is used to control the operation of the operation component 4 and the trigger button 2.

[0046] In this embodiment of the present invention, preferably, the handle with switchable trigger button 2 trigger mode further includes an operation component 4 and a main control component 5. The operation component 4 mainly includes a joystick assembly, directional keys, and various function keys mounted on the front and bottom shells. The joystick assembly consists of one joystick on each side, facilitating left and right directional turning using the handle. The directional keys are mainly cross-shaped keys for up, down, left, and right directions. Other function keys may include a power button, shoulder buttons, etc. The main control component 5 is installed in the cavity between the front and bottom shells and may also include a main control board 51. The main control board 51 can be electrically connected to the circuit board 12 via a pin connector 25. The pin connector 25 is mainly responsible for the transmission of communication functions between the main control board 51 and the Hall sensor 23 and / or push button switch 24 on the circuit board 12. The operation component 4 and the trigger button 2 are electrically connected to the main control board 51 of the main control component 5. The main control board 51 processes, transmits, and stores actions such as switching signals when the switch component 3 is switched. When the trigger button 2, joystick group, directional key or function key is pressed, the mechanical action is converted into an electrical signal. The main control board 51 processes the data signal, transmits the data signal, sends back the command and outputs it. The motor in the handle provides force feedback. A battery, motor, communication module and other components can also be installed in the handle and electrically connected to the main control board 51.

[0047] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A handle of switchable trigger key triggering mode, characterized in that, The handle with switchable trigger trigger mode includes a handle body, a trigger button, and a switching mechanism: The trigger button is located on the handle body and is equipped with a magnet and a trigger element. The handle body is equipped with a Hall effect sensor for detecting the magnetic field generated by the magnet, and the trigger element is used to trigger the button switch. The switching element is slidably installed in the handle body. When the switching element moves to the first limit position, the Hall sensor is enabled so that the Hall sensor detects the magnetic field generated by the magnet moving with the trigger button, and outputs a corresponding electrical signal according to the magnitude of the detected magnetic field. When the switching element moves to the second limit position, the Hall sensor is turned off, and the trigger element on the trigger button can trigger the button switch.

2. The switchable trigger toggle hand grip of claim 1, wherein, The trigger button is also provided with a keycap that is rotatably connected to the handle body. The keycap is provided with a baffle for restricting the movement of the keycap. The keycap is provided with a mounting cavity. The magnet and the trigger are arranged side by side. The magnet is installed on the back of the keycap and located in the mounting cavity. The trigger is located in the mounting cavity of the keycap.

3. The switchable trigger toggle hand grip of claim 1, wherein, The handle body contains a circuit board, which is electrically connected to a Hall effect sensor and a push-button switch. The circuit board is equipped with a trigger switch. Moving the switching element causes the switching element to press down or avoid the trigger switch, thereby turning the triggering mode of the Hall effect sensor on or off.

4. The switchable trigger toggle hand grip of claim 3, wherein, The handle body is also provided with a guide member, which is connected to the handle body and located within the handle body. The guide member is located above the circuit board and is used to guide the movement of the switching member. The guide member is provided with a sliding groove, which cooperates with the switching member. The inner wall of the sliding groove is provided with a first positioning groove and a second positioning groove, which are arranged side by side. The first positioning groove and the second positioning groove are used to position the switching member.

5. The switchable trigger toggle hand grip of claim 4, wherein, The sliding part of the switching component is a rod-shaped structure. The sliding part extends out of the handle body and is located in the limiting groove. The switching component is provided with a positioning part located directly below the sliding part. The positioning part is a set of opposing plate-shaped structures. The positioning part is movably installed in the guide member. The side of the positioning part is provided with a positioning protrusion that cooperates with the first positioning groove or the second positioning groove.

6. The switchable trigger toggle hand grip of claim 5, wherein, The switching component is also provided with a first trigger part. The top surface of the first trigger part is sloping and the lower side faces the trigger part of the trigger button. When the trigger button is pressed, the trigger button drives the trigger part to move and the trigger part presses down on the first trigger part. The first trigger part is used to trigger the button switch.

7. The switchable trigger toggle hand grip of claim 6, wherein, The switching component is also provided with a second trigger part, which is located between the positioning part and the first trigger part. The second trigger part is provided with a U-shaped groove. When the switching component is moved, the wall of the U-shaped groove is used to press down or avoid the trigger switch on the circuit board, thereby turning on or off the trigger mode of the trigger key Hall detection component.

8. The switchable trigger toggle hand grip of claim 1, wherein, The handle body is provided with a front shell and a bottom shell. The front shell and the bottom shell are connected by a fastener, and a cavity for installing the trigger button, circuit board and switching device is formed between the front shell and the bottom shell. The bottom shell is provided with a limiting groove, which is used to limit the movement stroke of the switching device. The limiting groove is a strip groove, and the direction of sliding of the switching device along the limiting groove is parallel to the direction of pressing the trigger button.

9. The switchable trigger toggle hand grip of claim 8, wherein, The handle with switchable trigger button trigger mode also includes an operation component and a main control component. The operation component includes a joystick group, directional keys, and function keys. The joystick group and directional keys are mounted on the front shell, and the function keys are mounted on the bottom shell. The operation component and the trigger button are electrically connected to the main control component, and the main control component is used to control the operation component and the trigger button.