A game handle posture test fixture
By designing a game controller posture testing fixture and utilizing a three-axis rotation component and a positioning component, the problem of omnidirectional posture simulation testing of game controllers was solved, improving testing efficiency and accuracy and reducing the risk of test interface damage.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU GOOD AUTOMATION EQUIP CO
- Filing Date
- 2025-08-28
- Publication Date
- 2026-07-14
Smart Images

Figure CN224499512U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a testing device for game accessories, specifically a jig for testing the posture of a game controller. Background Technology
[0002] Game controllers are a common gaming peripheral that allows mobile devices like smartphones and tablets to play games via touchscreens. By connecting an external game controller, games gain a realistic feel, similar to touching buttons and joysticks. Game controllers typically incorporate a gyroscope, allowing them to control the player's hand movements through their own deflection, thus enabling better aiming and other maneuvers for the game character. During factory testing, game controllers undergo simulated deflection tests to ensure the gyroscope functions correctly. Therefore, a test fixture is needed to simulate the full range of motion of the game controller, facilitating testing with appropriate instruments. Utility Model Content
[0003] The technical solution adopted by this utility model to solve its technical problem is: to provide a game controller posture testing fixture, comprising:
[0004] The three-axis rotation assembly includes an X-axis rotation motor, a Y-axis rotation motor, and a Z-axis rotation motor. The output end of the X-axis rotation motor is provided with a first carrier, the output end of the Y-axis rotation motor is provided with a second carrier, and the output end of the Z-axis rotation motor is provided with a third carrier. The first carrier is provided with a contour block for placing the game controller. The X-axis rotation motor is fixed on the second carrier, and the Y-axis rotation motor is fixed on the third carrier. The X-axis rotation motor, Y-axis rotation motor, and Z-axis rotation motor work together to drive the game controller to rotate.
[0005] A positioning component, comprising a rotary pressing cylinder and a pressing block connected to the output end of the rotary pressing cylinder, wherein the rotary pressing cylinder is used to drive the pressing block to press down on the game controller;
[0006] The plug-in / plug-out assembly includes a plug-in / plug-out cylinder and a carrier four connected to the output end of the plug-in / plug-out cylinder. The carrier four is provided with a test interface that is electrically connected to the test instrument. The plug-in / plug-out cylinder is used to drive the test interface and the game controller to plug in.
[0007] Furthermore, there are two copying blocks, and the rotary pressing cylinder corresponds to the copying block.
[0008] Furthermore, the positioning component also includes an adjusting cylinder disposed on the carrier, the adjusting cylinder corresponding to the molding block, the output end of the adjusting cylinder being provided with a connecting plate, and the connecting plate being connected to the rotary pressing cylinder.
[0009] Furthermore, the carrier is provided with a connecting block corresponding to the test interface, and the connecting block is provided with a guide groove corresponding to the test interface.
[0010] Furthermore, the inner wall of the guide groove is provided with a limiting part, the test interface is connected to a connecting block two, the limiting part is provided with a connecting bolt and a spring, the spring is sleeved on the connecting bolt and the end face of the connecting bolt presses on the spring, when the test interface is inserted, the connecting block two presses on the connecting bolt.
[0011] Furthermore, the pressing block is provided with a groove that fits into the outer periphery of the game controller.
[0012] The beneficial effects of this utility model are as follows: By setting up a three-axis rotation component, a positioning component, and a plug-in component, during testing, the game controller is first fixed to the carrier by the positioning component, then the test interface and the game controller are plugged in by the plug-in cylinder, and then the game controller is rotated in all directions by the three-axis rotation component, thereby simulating the posture of the game controller when in use, which facilitates the testing of the gyroscope function of the game controller. Attached Figure Description
[0013] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0014] In the picture: Figure 1 An overall structural diagram of a game controller posture testing fixture provided by this utility model;
[0015] Figure 2 for Figure 1 A three-dimensional structural diagram of the part shown;
[0016] Figure 3 for Figure 2 Enlarged view of point A in the middle;
[0017] Figure 4 for Figure 2 A three-dimensional structural diagram of the part shown;
[0018] Figure 5 for Figure 4 A cross-sectional view of the structure shown;
[0019] Figure 6 for Figure 5 Enlarged view at point B in the middle;
[0020] Figure 7 for Figure 4 Exploded view of the structure shown;
[0021] Figure 8 for Figure 7 The diagram shows the three-dimensional structure of connecting block one.
[0022] Explanation of reference numerals in the attached figures:
[0023] 100. Game controller posture testing fixture; 10. X-axis rotary motor; 11. Carrier 1; 111. Copying block; 112. Connecting block 1; 1121. Guide groove; 1122. Limiting part; 1123. Connecting bolt; 1124. Spring; 1125. Connecting hole; 20. Y-axis rotary motor; 21. Carrier 2; 30. Z-axis rotary motor; 31. Carrier 3; 40. Positioning assembly; 41. Rotary pressing cylinder; 42. Pressing block; 421. Groove; 43. Adjusting cylinder; 44. Connecting plate; 50. Insertion and removal assembly; 51. Insertion and removal cylinder; 52. Carrier 4; 53. Test interface; 531. Connecting block 2. Detailed Implementation
[0024] To make the technical problem to be solved, the technical solution, and the beneficial effects of this utility model clearer, the present utility model will now be described in detail with reference to the accompanying drawings. This drawing is a simplified schematic diagram, illustrating only the basic aspects of the present utility model, and therefore only shows the components relevant to the present utility model. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.
[0025] Please refer to Figure 1 This utility model provides a game controller posture testing fixture 100, including a three-axis rotation assembly, a positioning assembly 40, and a plug-in assembly 50. The three-axis rotation assembly includes an X-axis rotation motor 10, a Y-axis rotation motor 20, and a Z-axis rotation motor 30. The output end of the X-axis rotation motor 10 is provided with a carrier 11, the output end of the Y-axis rotation motor 20 is provided with a carrier 21, and the output end of the Z-axis rotation motor 30 is provided with a carrier 31. The carrier 11 has a contour block 111 for placing the game controller. The X-axis rotation motor 10 is fixed to the carrier 21, and the Y-axis rotation motor 20 is fixed to the carrier 31. The X-axis rotation motor 10, Y-axis rotation motor 20, and Z-axis rotation motor 30 cooperate to drive the game controller to rotate. Specifically, with... Figure 1 Taking the game controller posture testing fixture 100 shown as an example, the length direction of the carrier 11 shown in the figure is the X-axis direction, the width direction of the carrier 11 is the Y-axis direction, and the thickness direction of the carrier 11 is the Z-axis direction. The X-axis rotation motor 10 is used to drive the game controller to rotate around the X-axis, the Y-axis rotation motor 20 is used to drive the game controller to rotate around the Y-axis, and the Z-axis rotation motor 30 is used to drive the game controller to rotate around the Z-axis.
[0026] Please refer to Figure 2 and Figure 3The positioning component 40 includes a rotary pressing cylinder 41 and a pressing block 42 connected to the output end of the rotary pressing cylinder 41. The rotary pressing cylinder 41 drives the pressing block 42 to press down on the game controller. The pressing block 42 has a groove 421 that fits into the outer periphery of the game controller. The groove 421 makes the pressing block 42 fit more closely to the game controller, thereby facilitating the pressing block 42 to fix the game controller and improving the stability of the pressing block 42 in fixing the game controller.
[0027] Specifically, there are two copying blocks 111, and the rotary pressing cylinder 41 corresponds to the copying block 111. By setting up multiple copying blocks 111, two game controllers can be rotated simultaneously for posture testing, thereby improving testing efficiency.
[0028] Please refer to Figure 3 The positioning component 40 also includes an adjusting cylinder 43 mounted on the carrier 11. The adjusting cylinder 43 corresponds to the contour block 111, and the output end of the adjusting cylinder 43 is provided with a connecting plate 44, which is connected to the rotary pressing cylinder 41. By adjusting the setting of the adjusting cylinder 43, the position of the rotary pressing cylinder 41 can adapt to the deviation of the game controller's placement position.
[0029] Please refer to Figure 4 The plug-in / plug-out assembly 50 includes a plug-in / plug-out cylinder 51 and a carrier 4 52 connected to the output end of the plug-in / plug-out cylinder 51. The carrier 4 52 is provided with a test interface 53 that is electrically connected to the test instrument. The plug-in / plug-out cylinder 51 is used to drive the test interface 53 and the game controller to plug in. In this embodiment, the test instrument is a posture measurement sensor (not shown in the figure) from the prior art.
[0030] With the setup of the three-axis rotation component, positioning component 40, and plug-in component 50, during testing, the game controller is first fixed to the carrier 11 by the positioning component 40, and then the test interface 53 is driven to be plugged into the game controller by the plug-in cylinder 51. Then, the game controller is driven to rotate in all directions by the three-axis rotation component, thereby simulating the posture of the game controller when in use, which facilitates the testing of the gyroscope function of the game controller.
[0031] Please refer to Figure 4 , Figure 5 , Figure 6 and Figure 7 The carrier 11 is provided with a connecting block 112 corresponding to the test interface 53, and the connecting block 112 is provided with a guide groove 1121 corresponding to the test interface 53. The test interface 53 is guided by the guide groove 1121, which improves the accuracy of the connection between the test interface 53 and the game controller, thereby improving the testing efficiency.
[0032] Please refer to Figure 5 , Figure 6 and Figure 8The inner wall of the guide groove 1121 is provided with a limiting part 1122. The test interface 53 is connected to a connecting block 531. The limiting part 1122 is provided with a connecting bolt 1123 and a spring 1124. The spring 1124 is sleeved on the connecting bolt 1123 and the end face of the connecting bolt 1123 presses on the spring 1124. When the test interface 53 is inserted, the connecting block 531 presses on the connecting bolt 1123.
[0033] Specifically, the connecting bolt 1123 includes a rod head and a rod member. The diameter of the rod head is larger than the diameter of the rod member. The spring 1124 is sleeved on the rod member, and the two ends of the spring 1124 are respectively located between the limiting part 1122 and the rod head. The limiting part 1122 is provided with a connecting hole 1125 for the rod member of the connecting bolt 1123 to pass through, and the middle part of the limiting part 1122 is provided with a through groove (not labeled in the figure) for the test interface 53 to pass through. Through the arrangement of the connecting block 112, the connecting bolt 1123 and the spring 1124, when the insertion cylinder 51 drives the carrier 4 52 to insert the test interface 53, the connecting block 2 531 exerts pressure on the connecting bolt 1123, which in turn causes the connecting bolt 1123 to apply pressure to the spring 1124. The elastic force generated by the compression of the spring 1124 cancels the insertion force brought by the connecting block 2 531, so that the test interface 53 floats relative to the interface on the game controller, thereby reducing the possibility of damage to the test interface 53 due to excessive insertion force.
Claims
1. A game controller posture testing fixture, characterized in that, include: The three-axis rotation assembly includes an X-axis rotation motor, a Y-axis rotation motor, and a Z-axis rotation motor. The output end of the X-axis rotation motor is provided with a first carrier, the output end of the Y-axis rotation motor is provided with a second carrier, and the output end of the Z-axis rotation motor is provided with a third carrier. The first carrier is provided with a contour block for placing the game controller. The X-axis rotation motor is fixed on the second carrier, and the Y-axis rotation motor is fixed on the third carrier. The X-axis rotation motor, Y-axis rotation motor, and Z-axis rotation motor work together to drive the game controller to rotate. A positioning component, comprising a rotary pressing cylinder and a pressing block connected to the output end of the rotary pressing cylinder, wherein the rotary pressing cylinder is used to drive the pressing block to press down on the game controller; The plug-in / plug-out assembly includes a plug-in / plug-out cylinder and a carrier four connected to the output end of the plug-in / plug-out cylinder. The carrier four is provided with a test interface that is electrically connected to the test instrument. The plug-in / plug-out cylinder is used to drive the test interface and the game controller to plug in.
2. The game controller posture testing fixture according to claim 1, characterized in that: There are two copying blocks, and the rotary pressing cylinder corresponds to the copying block.
3. The game controller posture testing fixture according to claim 2, characterized in that: The positioning component also includes an adjusting cylinder disposed on the carrier, the adjusting cylinder corresponding to the molding block, the output end of the adjusting cylinder being provided with a connecting plate, and the connecting plate being connected to the rotary pressing cylinder.
4. The game controller posture testing fixture according to claim 1, characterized in that: The carrier is provided with a connecting block corresponding to the test interface, and the connecting block is provided with a guide groove corresponding to the test interface.
5. The game controller posture testing fixture according to claim 4, characterized in that: The inner wall of the guide groove is provided with a limiting part, and the test interface is connected to a connecting block two. The limiting part is provided with a connecting bolt and a spring. The spring is sleeved on the connecting bolt and the end face of the connecting bolt presses on the spring. When the test interface is inserted, the connecting block two presses on the connecting bolt.
6. The game controller posture testing fixture according to claim 1, characterized in that: The pressing block has a groove that fits into the outer periphery of the game controller.