VR amusement ride device that enables a user viewing virtual reality images to enjoy the feeling of riding a horse or vehicle by having the user ride a machine at the same time as viewing images, thereby preventing VR motion sickness. The VR amusement ride device includes VR image viewer, image processor, seat structure, and seat structure controller. The seat structure includes a saddle, a base, and a tilt angle adjuster, and the saddle rocks continuously or intermittently about a central axis. The image processor records/stores VR image data and event data in memory, transmits the VR image data to the VR image viewer and transmits event information based on the event data to the seat structure controller. The seat structure controller varies tilt angle of the rocking central axis of the saddle to forward tilt, backward tilt, right tilt, and left tilt on the basis of the event information.

A chair includes a movable part including a seat on which a user sits, a supporting part configured to support the movable part in such a way that the movable part can be moved to the right and to the left; and a restoration unit, which is a biasing member configured to bias the movable part toward the neutral position in the right and the left. The supporting part supports the movable part in such a way that the movable part descends as the movable part is away from the neutral position.

The present invention relates to a highly-simulated horseback riding machine, comprising supporting horse feet, a horse head, a horse hide, and a saddle. A movement mechanism is disposed within the horse hide, which comprises a base, a motor, a crank, a connecting rod, and a swing arm. Two ends of the connecting rod are hinged to the crank and the swing arm, respectively. The sum of length of the crank and the length the swing arm is less than the length of the connecting rod, and the length of the crank is less than that of the swing arm; the lower end of the swing arm is fixed to the base, and the fixed position of the lower end of the swing arm is higher than the position of the highest point of the crank in the process of rotation; the saddle is fixed to the connecting rod by means of a vertical rod; and the base is supported by the horse feet. The horse feet are in a double-splayed form so as to ensure that the horseback riding machine may not bounce unexpectedly in motion.

The present invention relates to a highly-simulated horseback riding machine, comprising supporting horse feet, a horse head, a horse hide, and a saddle. A movement mechanism is disposed within the horse hide, which comprises a base, a motor, a crank, a connecting rod, and a swing arm. Two ends of the connecting rod are hinged to the crank and the swing arm, respectively. The sum of length of the crank and the length the swing arm is less than the length of the connecting rod, and the length of the crank is less than that of the swing arm; the lower end of the swing arm is fixed to the base, and the fixed position of the lower end of the swing arm is higher than the position of the highest point of the crank in the process of rotation; the saddle is fixed to the connecting rod by means of a vertical rod; and the base is supported by the horse feet. The horse feet are in a double-splayed form so as to ensure that the horseback riding machine may not bounce unexpectedly in motion.

The present invention relates to a highly-simulated horseback riding machine, comprising supporting horse feet, a horse head, a horse hide, and a saddle. A movement mechanism is disposed within the horse hide, which comprises a base, a motor, a crank, a connecting rod, and a swing arm. Two ends of the connecting rod are hinged to the crank and the swing arm, respectively. The sum of length of the crank and the length the swing arm is less than the length of the connecting rod, and the length of the crank is less than that of the swing arm; the lower end of the swing arm is fixed to the base, and the fixed position of the lower end of the swing arm is higher than the position of the highest point of the crank in the process of rotation; the saddle is fixed to the connecting rod by means of a vertical rod; and the base is supported by the horse feet. The horse feet are in a double-splayed form so as to ensure that the horseback riding machine may not bounce unexpectedly in motion. With the movement mechanism in the horseback riding machine of the present invention, the motion trajectory at the saddle is made similar to an ellipse slantwise downwards with achieved characteristic of being slow at the highest and lowest positions in the process of motion. Speed varies between the highest and lowest speeds; thus, as compared with the actual horseback riding, the simulation similarity is above 80% when a horse is running.

The present invention relates to a highly-simulated horseback riding machine, comprising supporting horse feet, a horse head, a horse hide, and a saddle. A movement mechanism is disposed within the horse hide, which comprises a base, a motor, a crank, a connecting rod, and a swing arm. Two ends of the connecting rod are hinged to the crank and the swing arm, respectively. The sum of length of the crank and the length the swing arm is less than the length of the connecting rod, and the length of the crank is less than that of the swing arm; the lower end of the swing arm is fixed to the base, and the fixed position of the lower end of the swing arm is higher than the position of the highest point of the crank in the process of rotation; the saddle is fixed to the connecting rod by means of a vertical rod; and the base is supported by the horse feet. The horse feet are in a double-splayed form so as to ensure that the horseback riding machine may not bounce unexpectedly in motion. With the movement mechanism in the horseback riding machine of the present invention, the motion trajectory at the saddle is made similar to an ellipse slantwise downwards with achieved characteristic of being slow at the highest and lowest positions in the process of motion. Speed varies between the highest and lowest speeds; thus, as compared with the actual horseback riding, the simulation similarity is above 80% when a horse is running.