Patent Publication Number: US-6210286-B1

Title: Riding game system

Description:
This is a division of application Ser. No. 09/026,160 filed Feb. 19, 1998. The entire disclosure of the prior application is hereby incorporated by reference herein its entirety. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a riding game system for enjoying a game by operating a playing ride. 
     2. Description of the Related Art 
     Conventionally, there is known a game for operating and moving a virtual animal within a virtual space shown in a display by actually operating a device imitated as any animal. For example, in a game for riding an animal such as a horse riding may include a ride shaped like a horse on which a player rides to operate a virtual horse on a display. 
     However, it was difficult for the conventional riding game system of the above type to give a feeling to a player riding on the ride as if the player is handling a real animal. 
     Further, a conventionally known game is one in which a player can move within a virtual space on a display by operating a game device shaped like various rides such as a vehicle, car, motorcycle, bicycle or animal. 
     As an example of a game system for operating a motorcycle and the like, Japanese Patent Application No. 61-130591 discloses a motorcycle driving game system in which a player operates a motorcycle by shifting his/her own weight on the ride to rock an operating seat. 
     Such a conventional game system can cause the player to feel a back-and-forth rocking movement as in the actual motorcycle. The system can provide a game correspondingly improved in reality. 
     However, this prior art system comprises a support post having its bottom end mounted on a base being capable of rocking and a main body formed as an operator seat of an actual vehicle, which is fixedly mounted on the top end of the support post. A player rocks the main body back and forth against a given biasing force. Therefore, the back-and-forth rocking movement of the main body is transmitted directly to the base through the support post and biasing means. Consequently, the base itself will shake backward and forward. In the worst case, a problem may be raised in that the base moves back and force relative to a proper position of the base. 
     A plurality of such game machines are often installed adjacent to one another within a limited installation space. If each of the game machines moves within the limited space due to its back-and-forth oscillating movement, the adjacent game machines may impact against each other and damage them. A further problem may be raised in that additional work is required to fix the game machines to the floor. 
     SUMMARY OF THE INVENTION 
     The first object of the present invention is to provide a riding game system which can provide a feeling resembling the handling of a real animal. 
     The second object of the present invention is to provide a riding game system which can provide a optimal rocking movement in an given direction and yet which can greatly reduce the transmission of a oscillation to the rocking direction to the base. 
     The other object of the present invention is to provide a riding game system which can provide a optimal rocking movement when a player rides on and rocks backward and forward a main body having a form of an animal to operate a player character having a shape of the animal in a display and yet in which the transmission of an oscillation of the rocking direction to the base can greatly be reduced. 
     To accomplish the first object mentioned above, the present invention provides a riding game system including 
     a mimetic animal device having a configuration resembling an animal with a head and a body, the mimetic animal device being operable by a player when the player rides on the body, grips a rein portion provided at the head and puts feet on a pair of steps provided at the body, in a manner as a virtual animal is controlled within a virtual space; and 
     means for displaying the virtual space; and 
     wherein the body is capable of backward and forward rocking movement; and 
     wherein the backward and forward rocking movement of the body is detected to be information being used to control the virtual animal within the virtual space. 
     The player can obtain such a feeling as controlling a real animal by rocking the body of the mimetic animal device. 
     The present invention also provides a riding game system including: 
     a mimetic animal device having a configuration resembling an animal with a head and a body, the mimetic animal device being operable by a player when the player rides on the body, grips a rein portion provided at the head and puts feet on a pair of steps provided at the body, in a manner as a virtual animal is controlled within a virtual space; and 
     means for displaying the virtual space; and 
     wherein the head is capable of upward and downward inclining movement, and rotational movement from side to side; 
     wherein the body is capable of backward and forward rocking movement; 
     wherein the steps are capable of backward and forward rocking movement; and 
     wherein the rotational movement of the head and the rocking movement of the body are detected to be information being used to control the virtual animal within the virtual space. 
     The player can obtain such a feeling as control a real animal by moving the head, body and steps of the mimetic animal device. 
     With the riding game system, it is preferred that the rotational movement of the head and the rocking movement of the body are detected, the rotational movement of the head determining the running direction of the virtual animal, the rocking movement of the body determining the running speed of the virtual animal. 
     Thus, the virtual animal cannot be controlled in the virtual space merely by inclining the head backward and forward or rocking the steps backward and forward. The positive rocking action of the body backward and forward is actually required to control the virtual animal in the virtual space. Therefore, the action of the player more resembles the handling of a real animal. 
     With the riding game system, it is also preferred that the body rocks backward and forward by moving the rein portion upward and downward, and the steps rock forward and backward depending on the player&#39;s posture. 
     In such an arrangement, the rein portion can be moved to rock the body of the mimetic animal device. Particularly, if the running speed of the virtual animal is determined by rocking the body, the rein portion can be used to adjust the running speed of the virtual animal. This can provide a feeling which resembles the handling of a real animal. 
     To accomplish the second object of the present invention, the present invention provides a riding game system including: 
     a slide platform mounted on a base slidably in a first direction; 
     a main body supported on the slide platform, being capable of rocking movement in the first direction, the main body being rocked by a player; 
     biasing means for returning the main body to neutral position thereof; and 
     link means disposed between the main body and the base; and 
     wherein the main body is rocked in the first direction while sliding the slide platform in the first direction. 
     It is preferred that the link means is formed as a link arm. 
     It is also preferred that the link means connects between the main body and the base. By doing this the link means controls the sliding of the slide platform so that the slide platform moves backward when the main body inclines forward in the first direction, and the slide platform moves forward when the main body inclines backward. In such a connection, the link means may connect between the main body and the base along the first direction. 
     It is further preferred that the main body is formed as a game ride body which is rocked and controlled by a player riding thereon. 
     The main body is rocked by the player in the first direction against the biasing force of the biasing means. At this time, the oscillation transmitted from the main body to the base is absorbed by the slide movement of the slide platform in the first direction. 
     Thus, the player can feel an operational sense by rocking the body in the first direction. In addition, the oscillation created by the rocking movement may be absorbed by the slide movement of the slide platform in the first direction without being transmitted directly to the base. Therefore, the game can be played by rocking the main body without creation of any undesirable motion such as deviation of the base position. 
     It is further preferred that the link means is mounted in the direction toward a virtual center positioned on a perpendicular including the rocking center of the main body when the main body is in the neutral position. 
     More particularly, when the main body is in its neutral position, the direction in which the link means is mounted is set toward a desired virtual center which is on the perpendicular including the rocking center of the main body. Thus, the main body will be rocked about the virtual center in the first direction. 
     It is preferred that the virtual center is positioned so that it is on perpendicular including the rocking center of the main body and has a height substantially equal to the center of gravity of the main body when the main body is in the neutral position. 
     With the height of the virtual center being substantially equal to the center of gravity of the main body when it is in its neutral position, a component in the rocking movement in the first direction can be extremely small even if the main body is rocked. As a result, the oscillation transmitted to the base in the first direction can greatly be reduced. 
     It is further preferred that the link means is mounted on the main body being adjustable in the direction of height of the main body. In other words, the direction in which the link means is mounted on the main body is adjustable. 
     In such an arrangement, the mounting position of the main body can be adjusted to select the minimum transmission of signal to the base even if the center of gravity of the main body is ambiguous. Thus, the virtual center can be set at the same height as the center of gravity of the main body. 
     It is further preferred that the biasing means is disposed between the slide platform and the main body. 
     It is further preferred that the biasing means includes first and second biasing members which are disposed between the slide platform and the main body with the rocking center being sandwiched therebetween in the first direction. 
     It is further preferred that a cushion material is located between the slide platform and the main body, the cushion material may absorb an upward and downward impact transmitted from the main body to the slide platform. 
     In such an arrangement, the upward and downward oscillation created by the rocking motion of the main body in the first direction can more effectively be absorbed by the cushion material while at the same time the biasing force returning the main body to its neutral position can be improved. 
     It is further preferred that the first direction is set in the backward and forward direction relative to the player riding on the main body. 
     In such an arrangement, the player can control the player character by rocking the main body backward and forward. 
     It is further preferred that the main body is in the form of an animal which is capable of backward and forward rocking movement by a player riding thereon. 
     It is further preferred that the riding game system comprises: 
     means for detecting a rocking angle of the main body; and 
     means for controlling a player character in the form of the animal within the virtual space according to the detected rocking angle. 
     In such an arrangement, the player can control the player character in the form of an animal by riding on the main body like an animal and rocking the main body backward and forward. Particularly, since a character resembling a real animal or the like will be moved by the rocking motion of the main body backward and forward, such a game that the player actually rides on a character like an animal or the like and runs about within the virtual space can be enjoyed by the player with such a feeling that the player actually handles the animal. 
     In such a manner, the present invention may provide a riding game system in which the player riding on the game ride in the form of an animal can more effectively rock the main body to control the player character in the form of the animal and yet which can greatly reduce the transmission of the oscillation to the base in the rocking direction. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 illustrates a first embodiment of a mimetic animal device according to the present invention. 
     FIG. 2 is a perspective view of the outline of the first embodiment. 
     FIG. 3 is a plan view of the head in the first embodiment. 
     FIG. 4 illustrates an example of display screen. 
     FIGS. 5A to  5 C illustrate steps of operation of the mimetic animal device according to the first embodiment. 
     FIG. 6 illustrates a second embodiment of a mimetic animal device according to the present invention. 
     FIG. 7 illustrates the operation of the mimetic animal device shown in FIG. 6 when it is forwardly inclined. 
     FIG. 8 illustrates the operation of the mimetic animal device shown in FIG. 6 when it is backwardly inclined. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Some preferred embodiments of the present invention will now be described in detail with reference to the drawings. 
     First Embodiment 
     FIG. 2 shows the first preferred embodiment of a riding game system constructed in accordance with the present invention. 
     The riding game system comprises two displays  10  and two mimetic animal devices  20 . Each of these displays  10  shows a picture of horse racing in accordance with information from the corresponding one of the two mimetic animal devices  20  (FIG.  4 ). Correspondingly, the mimetic animal devices  20  are in the form of racing horses. 
     FIG. 1 is a schematic view of one of the mimetic animal devices. The mimetic animal device  20  comprises a main body including a head  22  and a body  24 , and a base  26  supports and enables the body  24  to rock. FIG. 3 is a plan view of the head. 
     The head  22  is provided with a rein portion  28  which is formed by bending a rod-like metal member. The rein portion  28  is rotatable within the range of about  30  degrees through a mounting portion  30  provided in the head  22 . The head  22  is fixedly connected to the rein portion  28  for enabling upward and downward movement together with the rein portion  28 . The mounting portion  30  permits the rotational movement of the rein portion  28  while applying a reaction force thereto. 
     As shown in FIG. 3, the head  22  also rotats from side to side together with the rein portion  28 . As shown in FIG. 1, the rein portion  28  rotates a rotary resistor  34  through a rotation shaft  32  which is fixed to the mounting portion  30 . The rotary resistor  34  detects the orientation of the rein portion  28  and head  22 . The rotation shaft  32  further receives a reaction force from a reaction force generator  36  to rotate in a reversed direction to the rotation shaft  32  rotates. 
     The body  24  includes steps  38 , each of which includes a crank arm  40  and a pedal  42  mounted at right angle on one end of the crank arm  40  as in a bicycle pedal. The pedal  42  can be rotated within the limited range of about 20 degrees. The crank arm  40  can be rocked forward within a range of about 45 degrees and backward within a range of about 70 degrees from a home position which is a state to be lowered straightly. Within the interior of the body  24 , one end of a link  44  is rotatably connected to the other end of the crank arm  40  and one end of a lever  46  is rotatably connected to the other end of the link  44 . The other end of the lever  46  is mounted to a mounting portion  48 . The mounting portion  48  rotatably supports the lever  46  while applying a reaction force thereto. 
     The crank arm  40 , link  44  and lever  46  form a crank mechanism which converts the rocking movement of the crank arm  40  into the rocking movement of the lever  46 . Since the mounting portion  48  applies the reaction force to the lever  46 , the crank arm  40  will receive a force tending to return it in the opposite direction when the crank arm  40  is to be rocked. 
     The body  24  is provided a seat  50 . However, a player plays a game in a half-rising posture rather than sitting on the seat  50 . The body  24  is rockably mounted on the base  26 . More particularly, a bearing  52  provided on the base  26  rotatably supports a rotating shaft  54  disposed on the lower end portion of the body  24  so that the body  24  can be rocked. Elastic members  56  made of rubber are interposed between the body  24  and the base  26 . These elastic members  56  provide a reaction force against the rocking movement of the body  24 . 
     The rocking movement of the body  24  can be detected by a rotary resistor  58  fixedly mounted on the base  26 . More particularly, the rotary resistor  58  includes a rotating shaft (not shown) to which a rocking lever  62  is fixed. The body  24  has a pin  60  formed therein. The pin  60  is disposed in a groove  62   a  formed in the rocking lever  62 . As the pin  60  is moved substantially up and down with the rocking movement of the body  24 , the rocking lever  62  is also correspondingly rocked up and down. Such a rocking movement of the rocking lever  62  is detected by the rotary resistor  58 . 
     In such an arrangement of the present embodiment, the operation thereof will now be described hereinafter. FIG. 4 illustrates a screen display of a game in the present embodiment while FIGS. 5A to  5 C illustrate a manner in which the mimetic animal device is operated according to the present embodiment. 
     As shown in FIG. 5A, the player first gets on the pedals  42  in the steps  38  and grips the rein portion  28 . At this time, the display  10  indicates a warning not to sit on the seat  50 . When the game is initiated, the horse racing starts. As shown in FIG. 4, the display  10  shows the back of a virtual horse  300  that is handled by the player as viewed from a third person. The player pulls up and pushes down the rein portion  28  to rock the body  24 . As a result, the virtual horse  300  will be handled in the virtual space. 
     More particularly, the forwarding direction of the horse is determined by pivoting the rein portion  28  from side to side to orient the horse head  22  to a certain direction, as shown in FIG.  3 . This direction can be detected by the rotary resistor  34  shown in FIG.  1 . 
     The speed of movement of the virtual horse is determined by the magnitude of rocking movement of the body  24 . In other words, the speed is determined depending on an angle of rocking that is produced when the rein portion  28  is moved up and down to rock the body  24  forward and backward. Thus, as the angle of rocking increases, the speed of the virtual horse increases. More particularly, the body  24  is rocked by repeating such a motion that the rein portion  28  is pushed down to incline the body  24  forward and then pulled up to incline the body  24  backward as shown in FIG.  5 B. At this time, the head  22  is inclined in the direction opposite to that of the body  24  inclining so that the head  22  is always oriented to a given direction. In other words, the virtual horse moves as if it is a real horse that pulls in its jaw as the neck is lifted and outthrusts its jaw as the neck is lowered. The angle of rocking movement is detected by the rotary resistor  58  shown in FIG.  1 . 
     Further, when the body  24  is rocked, the steps  38  are also rocked depending on the posture of the player. However, the angle of rocking movement in the steps  38  does not affect the speed of the virtual horse. 
     In the present embodiment, the display  10  shows various information as shown in FIG.  4 . For example, the central and top area of the display  10  shows a ranking  12  and a navigation section  14  on the right side of the ranking  12  for indicating a course and the current position. On the left side of the ranking  12 , there is shown an intermediate result  16  which indicates the passage time and speed of the headmost horse as it passes through a given point. On the left side of the intermediate result  16 , there is shown a position  18  in which the player&#39;s horse is among the other horses. The right and lower area of the display  10  shows a stamina meter  11  for indicating the degree of stamina exhaustion in the player&#39;s horse while the lower central area of the display shows an accelerator meter  13  for indicating the acceleration or deceleration of the player&#39;s horse. On the left side of the accelerator meter  13 , there is shown a horse message  15  for informing the status of the player&#39;s horse. In FIG. 4, the horse message  15  shows such a state that the player&#39;s horse runs a downhill. On the left side of the horse message  15 , there is shown an identification  17  that indicates the saddlecloth and name of the player&#39;s horse. When the headmost horse passes through a given point near the goal, it is also shown. 
     According to the present embodiment, thus, the mimetic animal device  20  can be operated to control the virtual horse  300  shown in the display  10 . The operation of this mimetic animal device  20  provides a feeling as if the player controls a real horse. 
     The present invention is not limited to the aforementioned embodiment, but may be performed in any of various modified forms. For example, the first embodiment discloses a devise having two displays  10  and two mimetic animal devices  20  allowing two players to play together, however, the number of the displays  10  and mimetic animal devices  20  may be increased and used in combination such that an increased number of players can play the game at the same time. 
     Second Embodiment 
     The second preferred embodiment of a riding game system according to the present invention will now be described in which parts corresponding to those of the first embodiment are designated by the same reference numerals and will not be further described. 
     FIG. 6 illustrates a riding game system relating to the second embodiment which comprises a display  10  and a mimetic animal device  20 . The display  10  shows a scene of horse racing as shown in FIG. 4 in accordance with information from the mimetic animal device  20 . Correspondingly, the mimetic animal device  20  is structured like a racing horse. 
     The mimetic animal device  20  comprises a base  170  provided on a floor  100 , a slide platform  150  disposed on the base  170  and is slidable forward and backward in the direction shown by an arrow in FIG. 6, a main body  130  mounted on the slide platform  150  supported by an rock shaft  152  for forward and backward rocking movement, and a link arm  180  fixedly mounted between the main body  130  and the base  170 . 
     The main body  130  is in the form of a racing horse. A player P riding on the main body  130  rocks forward and backward to control a virtual horse  300  which is a player&#39;s character displayed on the display  10  within a virtual space. 
     First of all, the main body  130  will be described. 
     The main body or racing horse  130  comprises a head  22  and a body  24 . The head  22  is provided with a rein portion  28  which is formed by bending a rod-like metal member. The rein portion  28  can be rotated within the range of about 30 degrees while a given reaction force is applied. 
     The head  22  can be rotated from side to side with the rein portion  28 . At this time, the head  22  receives a reaction force in the reversed direction to that the head  22  is rotated from a reaction force generator (not shown). The angle that the head  22  rotates from side to side is detected by a rotational angle detecting means (not shown) so that the virtual horse  300  moves within the virtual space to the direction in which the head  22  is facing. 
     The body  24  includes steps  38  formed thereon. Each of the steps  38  includes a pedal mounted at right angle on a crank arm at one end, as in the actual bicycle pedal. 
     The body  24  is also provided a seat  50 . However, the player plays the game in a half-rising posture rather than sitting on the seat  50  by rocking the body  130  forward and backward. 
     The angle of rocking movement of the body  24  can be detected by a rotary resistor  154  fixedly mounted on the slide platform  150 , as shown in FIGS. 7 and 8. More particularly, a rocking lever  156  is fixedly connected to the rotating shaft (not shown) of the rotary resistor  154  while a pin (not shown) is provided on the body  24 . The pin is disposed within a groove (not shown) which is formed along the longitudal of the rocking lever  156 . Thus, the pin substantially moves up and down as the body  24  is rocked back and forth. Correspondingly, the rocking lever  156  is also rocked up and down. The angle of rocking movement in the rocking lever  156  is detected by the rotary resistor  154 . 
     The slide platform  150 , base  170  and link arm  180  will be described. 
     First and second elastic members  158   a  and  158   b  are interposed between the slide platform  150  and the main body  130 . When the body  24  is rocked, the elastic members will apply a reaction force to the body  24  to return it to its neutral position shown in FIG.  6 . In the present embodiment, the elastic members  158   a  and  158   b  are formed of an elastic rubber material so that the reaction force is effectively produced, and disposed on the opposite sides each other to a rock shaft  152 . 
     The slide platform  150  is provided cushion members  159   a  and  159   b  which are disposed between the slide platform  150  and the main body  130  to absorb an upward and downward impact transmitted from the main body  130  to the slide platform  150 . These cushion members  159   a  and  159   b  are disposed on the opposite sides of the rock shaft  152 . 
     In such an arrangement, the up-and-down oscillation can effectively be absorbed corresponding to the rocking movement of the main body in the first direction. Further, a biasing force can effectively be applied to the main body to return it into its neutral position. 
     As mentioned above, the slide platform  150  is mounted on the base  170  and enabled to slide in a direction as shown by arrow  200  in FIG. 6 (i.e., forward and backward). In the present embodiment, the slide platform  150  is slidably mounted on slide rails  172  which are provided forward and backward on the base  170 . 
     The range of forward and backward slide movement of the slide platform  150  is limited by a link arm  180  which is mounted between the base  170  and the main body  130 . 
     More particularly, the link arm  180  is rotatably mounted on the base  170  through a first mounting portion  182  and on the main body  130  through a second mounting portion  184 . 
     As shown in FIGS. 7 and 8, therefore, the slide platform  150  slides forward or backward depending on the rotating direction of the main body  130 . For example, as shown in FIG. 7, the main body  130  can be inclined forward to produce the backward movement of the slide platform  150 . As shown in FIG. 8, the main body  130  can be inclined backward to produce the forward movement of the slide platform  150 . Thus, the slide platform  150  can be slidably moved forward and backward as shown by arrow  200  in FIG. 6 when the main body  130  is rocked forward and backward. The forward and backward oscillation of the main body  130  produced by the rocking movement can be absorbed by the slide platform  150  and will not be propagated directly to the base  170 . Therefore even if the player P violently moves the main body  130  forward and backward, such a situation that the position of the base  170  is slipped backward or forward relative to the proper position under the rocking movement of the main body  130  can be prevented. 
     In the present embodiment, when the main body  130  is in its neutral position as shown in FIG. 6, a point O at which the perpendicular  400  including the rock shaft  152  intersects an extension  410  of the link arm  180  becomes a virtual rocking center in the main body  130 . It is therefore preferable that the link arm  180  is mounted to the main body so that the virtual rocking center O is substantially the same height as the center of gravity G in the main body  130 . 
     In such an arrangement, the rotational inertia between the virtual center O and the center of gravity G acts upward and downward in FIG.  6 . The backward and forward component in the rotational inertia is substantially ignorable. Even though the player P violently moves the main body  130  forward and backward, therefore, such a forward and backward rocking movement can be converted into a oscillation in the upward and downward direction which is transmitted to the slide platform  150 . Thus, transmission of the back-and-forth oscillation to the base  170  can more effectively be reduced. In addition, the upward and downward oscillation component is absorbed by the cushion members  159   a  and  159   b,  so that the jolt due to the upward and downward oscillation component can also be effectively reduced. 
     In consideration of the fact that it is relatively difficult to specify the center of gravity G in the main body from the design drawings, it is preferred that the second mounting portion  184  of the link arm  180  is positioned so as to be adjustable in the upward and downward direction in FIG.  6 . In such a manner, when the link arm  180  is mounted on the main body  130 , the position of the second mounting portion  184  may be finely adjusted so that the transmission of the forward and backward rocking movement of the main body  130  to the base  170  becomes minimum. Accordingly, the virtual center O can be set substantially at the same height as in the center of gravity G. This can effectively reduce the transmission of the oscillation from the main body  130  to the base  170 . 
     The operation of the mimetic animal device according to the present embodiment will be described below. 
     As shown in FIG. 6, the player P first gets on the pedals of the steps  38  with his/her foot and grips the rein portion  28 . At this time, the display  10  shows a warning not to sit on the seat  50 . 
     As the game is initiated, the horse racing starts. As shown in FIG. 4, the display  10  shows the back of a virtual horse  300  that is handled by the player as viewed from a third person. The player P pulls up and pushes down the rein portion  28  to rock the body  24  forward and backward. As a result, the virtual horse  300  will be handled in the virtual space. 
     At this time, the speed of the virtual horse depends on the rocking angle of the body  24 . In other words, the speed is determined depending on an angle of rocking that is produced when the rein portion  28  is moved up and down to rock the body  24  forward and backward. Thus, as the angle of rocking increases, the speed of the virtual horse increases. In the present embodiment, thus, the mimetic animal device  20  can be operated with rocking movement by the player to handle the virtual horse  300  on the display  10 . Therefore, the player can enjoy the game with a feeling as if the player rides on a real horse by operating the mimetic animal device  20 . 
     The player P often rocks the body  24  largely forwards and backward to run the virtual horse  300  at higher speed. The forward and backward rocking movement of the body  24  is absorbed by the backward and forward sliding movement of the slide platform  150  to prevent it from being transmitted to the base  170 . Accordingly, the base  170  can stabilized on the floor  100  without being undesirably affected by the rocking movement of the body  24 . 
     The present invention is not limited to the aforementioned embodiment, but may be embodied in any of various modified forms. 
     For example, the present invention may be applied to any other game in which a character like any animal or virtual animal other than the horse in the mimetic animal device  20  is controlled to play the game. Furthermore, the present invention may also be applied to any ride or vehicle other than the animals. 
     Although the embodiments of the present invention have been described as to the forward and backward rocking movement, it may be similarly applied to an apparatus which takes a from-side-to-side rocking movement mechanism or a rocking movement mechanism in a direction intersecting the backward-and-forward and from-side-to-side rocking directions, if necessary.