A simulator seat with intelligent voice prompts

By installing camera components and a voice prompt system in the simulator seat, combined with motor screw drive and electric telescopic cylinder, intelligent voice prompts and seat adjustment are achieved, solving the problem of poor simulation training experience and improving training efficiency and safety.

CN224437056UActive Publication Date: 2026-06-30XINXIANG XINHAO ELECTROMECHANICAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINXIANG XINHAO ELECTROMECHANICAL CO LTD
Filing Date
2025-06-12
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing aircraft simulators lack intelligent voice prompts, resulting in a poor simulation training experience.

Method used

A camera module is installed in the simulator seat to detect posture and provides voice prompts via a buzzer and speaker. Combined with a motor screw drive and an electric telescopic cylinder, the seat can slide and adjust its height, thus enhancing the intelligent voice prompt function.

Benefits of technology

The intelligent voice prompts enhance the simulated training experience, the seat height is easily adjustable, and the hidden camera design prevents damage, thus improving training efficiency and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a simulated cabin seat with intelligent voice prompt function, including a simulated seat mounted on a slide base, a seat bracket mounted on the slide base that can slide in the front-to-back direction, a linear drive mechanism one mounted on the slide base that can drive the seat bracket to slide, a simulated seat that can slide up and down on the seat bracket, a second linear drive mechanism two mounted on the seat bracket that can drive the simulated seat to slide, and a buzzer and a speaker mounted on the seat bracket; two manual switches for controlling the first linear drive mechanism and the second linear drive mechanism are respectively located at the two ends of the seat basin of the simulated seat, and a controller is also provided on the simulated seat; a headrest bracket is located at the top of the seat bracket, and a camera assembly is located at the top of the headrest bracket, the camera assembly including a camera body for detecting sitting posture; this utility model has the advantages of intelligent voice prompt function, enhancing the simulated training experience.
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Description

Technical Field

[0001] This utility model relates to the field of simulation training seat technology, specifically a simulation cabin seat with intelligent voice prompt function. Background Technology

[0002] Simulated aircraft cockpit seats are generally used in flight simulation games or to train pilots. These seats typically employ high-fidelity technology to simulate a realistic cockpit experience based on aircraft movements and environmental changes. Patent publication number CN219375353U discloses a simulated training vibration seat, specifically featuring a base beneath the seat, guide rails on both sides of the base, a gear and rack structure between the base and the seat, a motor reducer mounted on the seat, and the electric reducer connected to the gears and slidingly engaging with the base via the gear and rack structure and guide rails. First and second limit switches are respectively installed at both ends of the guide rails. A servo electric cylinder is hinged at the rear of the seat to drive seat vibration. However, this design suffers from issues such as the lack of intelligent voice prompts and a poor simulation training experience. Utility Model Content

[0003] The technical problem this invention aims to solve is to overcome existing defects and provide a simulated cabin seat with intelligent voice prompts. The seat uses a camera to capture and detect the trainee's posture, and a buzzer and speaker to remind the trainee whether their posture is correct or whether the simulated seat has been moved into position, thus achieving intelligent voice prompts and enhancing the simulated training experience. The camera bracket and camera body are hidden inside the headrest bracket, effectively preventing damage to the camera body from impacts. This effectively solves the problems in the background technology.

[0004] To achieve the above objectives, this utility model provides the following technical solution: a simulated cabin seat with intelligent voice prompt function, comprising a simulated seat mounted on a slide base, a seat bracket that can slide in the front-to-back direction mounted on the slide base, a linear drive mechanism one that can drive the seat bracket to slide back and forth mounted on the slide base, the simulated seat being slidably mounted on the seat bracket, a linear drive mechanism two that can drive the simulated seat to slide up and down mounted on the seat bracket, and a buzzer and a speaker mounted on the seat bracket; manual switches one and two are respectively located at the two ends of the seat basin of the simulated seat, and manual switches one and two are respectively used to control linear drive mechanism one and linear drive mechanism two; a controller is also provided on the simulated seat; a headrest bracket is located at the top of the seat bracket, and a camera assembly is located at the top of the headrest bracket, the camera assembly including a camera body for detecting sitting posture; a headrest plate is located at the front end of the headrest bracket.

[0005] Furthermore, the linear drive mechanism is a motor screw transmission mechanism. Linear guide rails are horizontally arranged on both sides of the slide base along the front-back direction. A slide block is fixedly provided at the bottom of the seat bracket. The slide block is slidably connected to the linear guide rails through a slider and is fixedly connected to the screw nut of the motor screw transmission mechanism.

[0006] Furthermore, the second linear drive mechanism is an electric telescopic cylinder. The telescopic end of the electric telescopic cylinder is movably connected to the simulated seat through a hinge support. The front end of the seat bracket is provided with a second linear guide rail in the vertical direction, and the simulated seat is slidably connected to the second linear guide rail through a second slider.

[0007] Furthermore, the camera assembly also includes a fixing plate fixedly mounted on the top of the headrest bracket. The headrest bracket has a box structure with an opening at its top. The fixing plate is fixedly connected to the opening of the headrest bracket by screws. A rectangular hole is provided on the top surface of the fixing plate. A flip plate is movably connected to the rear edge of the rectangular hole on the fixing plate via a damping hinge. When the flip plate is flipped to the rectangular hole, the four edges of the flip plate can fit against the four edges of the rectangular hole. A camera bracket is movably connected to the end of the flip plate away from the damping hinge via a damping hinge, and the camera body is fixed on the camera bracket.

[0008] Compared with the prior art, the beneficial effects of this utility model are as follows: This simulated cabin seat with intelligent voice prompt function, by tossing a manual switch one, drives the motor screw transmission mechanism to drive the seat bracket, moving the simulated seat and trainees into or out of the simulated cabin. By tossing a manual switch two, the electric telescopic cylinder drives the simulated seat to adjust its height. Trainees are always outside the simulated cabin when getting on and off the simulated seat, and the height adjustment of the simulated seat is convenient, facilitating trainees to quickly conduct simulated training. The camera body captures and detects the trainees' sitting posture, and reminds the trainees whether their sitting posture is correct or whether the simulated seat has moved into place through a buzzer and speaker, realizing the intelligent voice prompt function and enhancing the simulated training experience. By rotating the flip plate and camera bracket, the camera bracket and camera body can be hidden inside the headrest bracket, effectively preventing the camera body from being damaged by bumps. Attached Figure Description

[0009] Figure 1 This is a schematic diagram of the structure of this utility model;

[0010] Figure 2 This is a schematic diagram of the simulated seat structure of this utility model;

[0011] Figure 3 This is an isometric schematic diagram of the simulated seat of this utility model;

[0012] Figure 4 This is a schematic diagram of the back structure of the seat bracket of this utility model;

[0013] Figure 5 This is a schematic diagram of the slide base structure of this utility model;

[0014] Figure 6 This is a partial enlarged view of the slide base of this utility model;

[0015] Figure 7 This is a schematic diagram of the camera assembly structure of this utility model;

[0016] Figure 8 This is a top view of the fixing plate of this utility model.

[0017] In the diagram: 1. Slide base; 101. Linear guide rail one; 2. Motor screw transmission mechanism; 3. Slide seat; 31. Slider one; 4. Seat bracket; 41. Electric telescopic cylinder; 5. Simulated seat; 51. Slider two; 6. Headrest bracket; 7. Headrest plate; 8. Camera assembly; 81. Fixing plate; 811. Rectangular hole; 82. Flip plate; 83. Damping hinge one; 84. Camera bracket; 85. Damping hinge two; 86. Camera body; 9. Manual switch one; 10. Manual switch two; 11. Controller; 12. Buzzer; 13. Speaker. Detailed Implementation

[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model. Example

[0019] Please see Figure 1-8 This utility model provides a technical solution: a simulated cabin seat with intelligent voice prompt function, including a simulated seat 5 mounted on a slide base 1. Linear guide rails 101 are horizontally mounted on both sides of the slide base 1 along the front-back direction. A slide block 3 is slidably connected to the linear guide rails 101 via a slider 31. A seat bracket 4 is fixedly mounted on the top of the slide block 3. A linear drive mechanism 1 is provided on the slide base 1 to drive the seat bracket 4 to slide back and forth. The linear drive mechanism 1 is a motor screw transmission mechanism 2, and the slide block 3 is fixedly connected to the screw nut of the motor screw transmission mechanism 2. Limit switches (not shown in the figure) are provided at both ends of the linear guide rails 101 for detecting the movement of the slide block 3 into position.

[0020] The front end of the seat bracket 4 is provided with a linear guide rail 2 along the vertical direction. The simulated seat 5 is slidably connected to the linear guide rail 2 via a slider 2 51. The seat bracket 4 is provided with a linear drive mechanism 2 that can drive the simulated seat 5 to slide up and down. The linear drive mechanism 2 is an electric telescopic cylinder 41. The telescopic end of the electric telescopic cylinder 41 is movably connected to the simulated seat 5 via a hinge support. The seat bracket 4 is also provided with a buzzer 12 and a speaker 13.

[0021] The simulated seat 5 has manual switches 9 and 10 on both sides of the seat basin, which are used to control linear drive mechanism 1 and linear drive mechanism 2, respectively. The simulated seat 5 also has a controller 11. The top of the seat bracket 4 has a headrest bracket 6, and the top of the headrest bracket 6 has a camera assembly 8, which includes a camera body 86 for detecting sitting posture. The front end of the headrest bracket 6 has a headrest plate 7.

[0022] The camera assembly 8 also includes a fixing plate 81 fixedly mounted on the top of the headrest bracket 6. The headrest bracket 6 has a box structure and an opening at its top. The fixing plate 81 is fixedly connected to the opening of the headrest bracket 6 by screws. A rectangular hole 811 is provided on the top surface of the fixing plate 81. A flip plate 82 is movably connected to the rear edge of the rectangular hole 811 on the fixing plate 81 via a damping hinge 83. When the flip plate 82 is flipped to the rectangular hole 811, the four edges of the flip plate 82 can fit against the four edges of the rectangular hole 811. The end of the flip plate 82 away from the damping hinge 83 is movably connected to a camera bracket 84 via a damping hinge 85. The camera body 86 is fixed on the camera bracket 84.

[0023] In use: The initial position of the simulation seat 5 is located at the rear of the slide base 1 (i.e., the initial position of the simulation seat 5 is far from the simulation cabin). The trainee boards the simulation seat 5, fastens the seat belt, and when the height of the simulation seat 5 needs to be adjusted, the manual switch 10 is turned on to drive the electric telescopic cylinder 41 to raise or lower the simulation seat 5. After the simulation seat 5 is adjusted, the manual switch 9 is turned on to drive the motor screw transmission mechanism 2 to slide the seat bracket 4 forward along the linear guide rail 101. When the trainee moves to the training position (i.e., the simulation seat 5 moves into the simulation cabin), the camera 86 captures and detects whether the trainee's sitting posture is correct. If the trainee's sitting posture is correct, the speaker 13 will issue a voice reminder that the trainee can start the simulation training. If the trainee's sitting posture is not correct or the simulation seat 5 has not moved to the training position, the buzzer 12 will issue an audible and visual alarm and issue a voice reminder through the speaker 13. After the training is over, the manual switch 9 is turned on to drive the motor screw transmission mechanism 2 to slide the seat bracket 4 backward along the linear guide rail 101 until the simulation seat 5 moves back to its original position.

[0024] When the camera assembly 8 is not in use or when the simulator seat is being moved, the flip plate 82 and camera bracket 84 are flipped upwards by the damping hinge 1 83. After flipping to a certain angle, the camera bracket 84 is flipped downwards relative to the flip plate 82 by the damping hinge 2 85. Then, the flip plate 82 is rotated downwards to turn the camera bracket 84 and camera body 86 into the headrest bracket 6 to prevent the camera body 86 from being bumped and damaged.

[0025] The simulated cabin seat with intelligent voice prompt function disclosed in this embodiment can drive the seat bracket 4 through the motor screw transmission mechanism 2 by toggling the manual switch 19, thereby moving the simulated seat 5 and the trainee into or out of the simulated cabin. By toggling the manual switch 210, the electric telescopic cylinder 41 can drive the simulated seat 5 to adjust its height. The trainee is outside the simulated cabin when getting on and off the simulated seat 5, and the height adjustment of the simulated seat 5 is convenient, facilitating the trainee to quickly conduct simulated training. The camera body 86 captures and detects the trainee's sitting posture, and reminds the trainee whether the sitting posture is correct or whether the simulated seat 5 has moved to the correct position through the buzzer 12 and speaker 13, realizing the intelligent voice prompt function and enhancing the simulated training experience. By rotating the flip plate 82 and the camera bracket 84, the camera bracket 84 and the camera body 86 can be hidden inside the headrest bracket 6, effectively preventing the camera body 86 from being damaged by bumps.

[0026] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A simulator seat with intelligent voice prompt function, comprising a simulator seat mounted on a slide base, characterized in that: The slide base is equipped with a seat bracket that can slide in the front-to-back direction. The slide base is equipped with a linear drive mechanism one that can drive the seat bracket to slide back and forth. The simulated seat is slidably mounted on the seat bracket. The seat bracket is equipped with a linear drive mechanism two that can drive the simulated seat to slide up and down. The seat bracket is also equipped with a buzzer and a speaker. Manual switches one and two are respectively located on both sides of the seat basin of the simulated seat. Manual switches one and two are used to control linear drive mechanism one and linear drive mechanism two, respectively. The simulated seat is also equipped with a controller. The top of the seat bracket is equipped with a headrest bracket. The top of the headrest bracket is equipped with a camera assembly, which includes a camera body for detecting sitting posture. The front end of the headrest bracket is equipped with a headrest plate.

2. The simulator seat with intelligent voice prompt function according to claim 1, characterized in that: The linear drive mechanism is a motor screw transmission mechanism. Linear guide rails are horizontally arranged on both sides of the slide base in the front-to-back direction. A slide block is fixedly provided at the bottom of the seat bracket. The slide block is slidably connected to the linear guide rails through a slider and is fixedly connected to the screw nut of the motor screw transmission mechanism.

3. A simulator seat with intelligent voice prompt function according to claim 1, characterized in that: The second linear drive mechanism is an electric telescopic cylinder. The telescopic end of the electric telescopic cylinder is movably connected to the simulated seat through a hinge support. The front end of the seat bracket is provided with a second linear guide rail in the vertical direction, and the simulated seat is slidably connected to the second linear guide rail through a second slider.

4. A simulator seat with intelligent voice prompt function according to claim 1, characterized in that: The camera assembly also includes a fixing plate fixedly mounted on the top of the headrest bracket. The headrest bracket has a box structure with an opening at its top. The fixing plate is fixedly connected to the opening of the headrest bracket by screws. A rectangular hole is opened on the top surface of the fixing plate. A flip plate is movably connected to the rear edge of the rectangular hole on the fixing plate via a damping hinge. When the flip plate is flipped to the rectangular hole, the four edges of the flip plate can fit against the four edges of the rectangular hole. The end of the flip plate away from the damping hinge is movably connected to the camera bracket via a damping hinge, and the camera body is fixed on the camera bracket.