The present invention provides a swing-type experience apparatus including: two vertical columns (110) configured to be vertically installed into the ground; a driving device (120) configured to be provided on the upper end of any one of the two vertical columns; a rotating shaft (130) configured to be provided on the upper ends of the two vertical columns in a lateral direction and to be rotated by the driving device; two vertical bars (150) configured such that one end of each thereof is fastened to the rotating shaft and the other end of each thereof is connected to a horizontal bar (140); wherein the driving device includes a motor (121) and a clutch (125) configured to selectively transmit the rotating force of the motor and then transfer the rotating force to the rotating shaft (130).

The present invention provides a swing-type experience apparatus including: two vertical columns (110) configured to be vertically installed into the ground; a driving device (120) configured to be provided on the upper end of any one of the two vertical columns; a rotating shaft (130) configured to be provided on the upper ends of the two vertical columns in a lateral direction and to be rotated by the driving device; two vertical bars (150) configured such that one end of each thereof is fastened to the rotating shaft and the other end of each thereof is connected to a horizontal bar (140); wherein the driving device includes a motor (121) and a clutch (125) configured to selectively transmit the rotating force of the motor and then transfer the rotating force to the rotating shaft (130).

The present invention provides a swing-type experience apparatus including: two vertical columns (110) configured to be vertically installed into the ground; a driving device (120) configured to be provided on the upper end of any one of the two vertical columns; a rotating shaft (130) configured to be provided on the upper ends of the two vertical columns in a lateral direction and to be rotated by the driving device; two vertical bars (150) configured such that one end of each thereof is fastened to the rotating shaft and the other end of each thereof is connected to a horizontal bar (140); wherein the driving device includes a motor (121) and a clutch (125) configured to selectively transmit the rotating force of the motor and then transfer the rotating force to the rotating shaft (130).

The present invention provides a swing-type experience apparatus including: two vertical columns (110) configured to be vertically installed into the ground; a driving device (120) configured to be provided on the upper end of any one of the two vertical columns; a rotating shaft (130) configured to be provided on the upper ends of the two vertical columns in a lateral direction and to be rotated by the driving device; two vertical bars (150) configured such that one end of each thereof is fastened to the rotating shaft and the other end of each thereof is connected to a horizontal bar (140); wherein the driving device includes a motor (121) and a clutch (125) configured to selectively transmit the rotating force of the motor and then transfer the rotating force to the rotating shaft (130).

The current invention relates to an amusement device, in which the amusement device includes a first tower; a first arm, extending between a first end and a second end, which is at its first end rotatably connected to the first tower for allowing rotation over at least 180 and configured to rotate around a swining axis (Sa); a carrier, rotatably connected to the second end of the first arm and rotatable around a carrier rotation axis, and a stability mechanism, connecting the carrier with the first tower, wherein the stability mechanism is configured to maintain the carrier in an upright orientation while the first arm rotates around the swinging axis.

The current invention relates to an amusement device, in which the amusement device includes a first tower; a first arm, extending between a first end and a second end, which is at its first end rotatably connected to the first tower for allowing rotation over at least 180 and configured to rotate around a swining axis (Sa); a carrier, rotatably connected to the second end of the first arm and rotatable around a carrier rotation axis, and a stability mechanism, connecting the carrier with the first tower, wherein the stability mechanism is configured to maintain the carrier in an upright orientation while the first arm rotates around the swinging axis.

A gondola 40 is mounted to move freely along an endless, sinuous track 20. With the track 20 rotating about a horizontal axis, the gondola 40 is raised and, as the track 20 presents a downhill section, the gondola 40 rolls down it under the influence of gravity. The steeper the downhill section, the greater the speed until the gondola 40 reaches its lowermost position (FIG. 1B). Its momentum cause the gondola 40 to carry on travelling along a momentarily uphill section of the track 20. Travel from then on depends on a number of variables, including the rotational speed, direction and acceleration of the track 20, the weight of the gondola 40 and its passengers, the natural damping effect of friction in the mounting of the gondola 40 on the track 20, and any additional braking and/or driving effect that may be applied to the gondola 40. As compared to a conventional rollercoaster, the ride 1 may occupy a very much smaller footprint, incur a much lower capital cost and be readily adaptable to mobile use. By varying the operating parameters, many differing ride experiences may be achieved.

A gondola 40 is mounted to move freely along an endless, sinuous track 20. With the track 20 rotating about a horizontal axis, the gondola 40 is raised and, as the track 20 presents a downhill section, the gondola 40 rolls down it under the influence of gravity. The steeper the downhill section, the greater the speed until the gondola 40 reaches its lowermost position (FIG. 1B). Its momentum cause the gondola 40 to carry on travelling along a momentarily uphill section of the track 20. Travel from then on depends on a number of variables, including the rotational speed, direction and acceleration of the track 20, the weight of the gondola 40 and its passengers, the natural damping effect of friction in the mounting of the gondola 40 on the track 20, and any additional braking and/or driving effect that may be applied to the gondola 40. As compared to a conventional rollercoaster, the ride 1 may occupy a very much smaller footprint, incur a much lower capital cost and be readily adaptable to mobile use. By varying the operating parameters, many differing ride experiences may be achieved.

The current invention relates to an amusement device, in which the amusement device includes a first tower; a first arm, extending between a first end and a second end, which is at its first end rotatably connected to the first tower for allowing rotation over at least 180 and configured to rotate around a swining axis (Sa); a carrier, rotatably connected to the second end of the first arm and rotatable around a carrier rotation axis, and a stability mechanism, connecting the carrier with the first tower, wherein the stability mechanism is configured to maintain the carrier in an upright orientation while the first arm rotates around the swinging axis.

The current invention relates to an amusement device, in which the amusement device includes a first tower; a first arm, extending between a first end and a second end, which is at its first end rotatably connected to the first tower for allowing rotation over at least 180 and configured to rotate around a swining axis (Sa); a carrier, rotatably connected to the second end of the first arm and rotatable around a carrier rotation axis, and a stability mechanism, connecting the carrier with the first tower, wherein the stability mechanism is configured to maintain the carrier in an upright orientation while the first arm rotates around the swinging axis.