CN106823370B - Operation platform of simulated skiing game machine - Google Patents

Abstract

The utility model discloses an operation platform of a simulated skiing game machine, which comprises a base, a skiing pedal simulation device and handrails, wherein the skiing pedal simulation device is arranged on the base and comprises a support frame, two pedal slide plate assemblies and a base; the pedal sliding plate assembly is rotationally arranged on the supporting frame; the support frame is hinged to the base. The pedal sliding plate assembly can swing around the base and is used for simulating the action of left-right swing of a snowboard; the pedal-ski assembly is also rotatable about its own longitudinal axis for simulating the cornering sideways tilting action of a snowboard when cornering. When an experimenter uses the operation platform of the simulated skiing game machine provided by the utility model to simulate turning action, the two feet swing to the turning side to drive the pedal sliding plate assembly to swing to the same side, the body inclines to the turning side to drive the pedal sliding plate assembly to rotate to the same side, so that the skiing action is more truly restored, the third dimension and the reality of the game are enhanced, and the game fun of the experimenter is met.

Description

Operation platform of simulated skiing game machine

Technical Field

The utility model belongs to the technical field of policy game devices, and particularly relates to an operation platform of a simulated skiing game machine.

Background

With the vigorous development of public sports industry, people are no longer satisfied with general sports activities, and pursue extreme sports with higher body interest and higher stimulation, such as alpine skiing, is started. However, many people cannot personally experience the fun of alpine skiing due to the limitations of the place and season. In order to solve the above problems, some simulated game devices are presented in the market, and help people experience the fun of extreme sports in a simulated environment, and a simulated skiing game machine is one of the devices.

An existing simulated skiing game machine, for example, named as a sliding mechanism for a simulated skiing game, has an utility model patent with application number of 201520849047.5, and comprises a display, a central processing unit, a skateboard base, handles arranged on two sides of the skateboard base and a skiing pedal simulation device, wherein the skiing pedal simulation device comprises a pedal skateboard assembly, a potentiometer and a gear structure. In the game process, an experimenter holds the handle and steps on the pedal sliding plate assembly to swing left and right, the pedal sliding plate assembly drives the potentiometer to rotate through the gear structure, the potentiometer transmits rotating angle data to the central processing unit, and the central processing unit controls the game characters in the display to slide left or right.

However, the above-described simulated ski game machine has a pedal skate assembly of the ski foot simulator that swings only left and right, unlike the real case of a real skiing sport. In a real skiing sport, a player swings a ski (corresponding to a pedal-skateboard assembly in a simulated skiing game machine) to a turning side during turning, meanwhile, in order to keep balance, the body of the player is inclined to the turning side, feet are tilted to the turning side, the ski is tilted to the turning side along with the body, and under the same turning radius, the speed is faster, and the tilting angle of the ski is larger. Because the pedal sliding plate assembly of the existing simulated skiing game machine can only swing left and right and does not truly simulate the scene of skiing, the experience of an experienter is greatly reduced, and the fun of the experienter cannot be met. Therefore, there is a need for creative improvements to the existing ski foot simulation devices to achieve simultaneous simulation of the swing and rotation movements of a ski, restoring the true alpine skiing motion. Meanwhile, in order to apply the improved skiing pedal simulation device to the existing simulated skiing game machine, the adaptability of the skateboard base is improved, so that the improved skiing pedal simulation device can be conveniently matched with other parts of the simulated skiing game machine after being mounted on the skateboard base, and corresponding functions are smoothly realized.

Disclosure of Invention

In order to solve the above problems, the present utility model provides an operating platform of a simulated skiing game machine for use in the simulated skiing game machine to restore a real deep skiing sport.

In order to achieve the above purpose, the utility model is realized according to the following technical scheme:

an operation platform of a simulated skiing game machine comprises a base, a skiing pedal simulation device and an armrest, wherein the skiing pedal simulation device and the armrest are arranged on the base; the base is fixedly arranged on the base; the pedal sliding plate assembly is rotationally arranged on the support frame around the axis of the pedal sliding plate assembly in the length direction; the support frame is hinged to the base and is used for enabling the pedal sliding plate assembly to swing around the base.

Further, the pedal sliding plate assembly is in transmission connection with a first potentiometer so as to drive the first potentiometer to rotate.

Further, the pedal sliding plate assembly comprises a pedal and a rotating shaft arranged on the pedal;

both ends of the rotating shaft are respectively hinged to the supporting frame.

Further, a linkage mechanism is arranged between the two pedal slide plate assemblies, so that the rotation of the two pedal slide plate assemblies is ensured to be kept synchronous.

Further, the linkage mechanism comprises a first connecting rod and two second connecting rods respectively hinged to two ends of the first connecting rod;

the second connecting rods are fixedly connected with the rotating shafts respectively.

Further, the rotating shaft is in transmission connection with the first potentiometer.

Further, the pedal slide plate assembly is also connected with a limiting device for limiting the rotation angle of the pedal slide plate assembly and driving the pedal slide plate assembly to return to the horizontal position; the limiting device comprises a square cylinder, square columns and four elastic columns; the cylinders are respectively arranged at four corners in the cavity of the square cylinder, the square columns are arranged in the square sleeve, and four side surfaces of the square columns are respectively attached to the side surfaces of the four cylinders; the rotating shaft is fixedly connected with the square column.

Further, the supporting frame is also connected with a transmission mechanism; the support frame is in transmission connection with a second potentiometer through the transmission mechanism and is used for driving the second potentiometer to rotate; the base is provided with a support, and the second potentiometer is fixedly arranged on the support.

Further, the transmission mechanism is also connected with a brake for stopping the pedal slide plate assembly from swinging around the base; the transmission mechanism comprises a third connecting rod, a fourth connecting rod, a first gear and a second gear; one end of the third connecting rod is hinged to the supporting frame, and the other end of the third connecting rod is hinged to one end of the fourth connecting rod; the other end of the fourth connecting rod and the first gear are fixedly connected with an output shaft of the brake; a third gear is arranged on the connecting shaft of the second potentiometer, and the second gear is meshed with the first gear and the third gear respectively; the base is provided with a detachable mounting seat, and the brake is arranged in the mounting seat.

Further, the base comprises a bottom plate, a bearing, an elastic piece for driving the pedal slide plate assembly to return to the initial position and a connecting plate for connecting the support frame; the bottom plate is connected with the outer ring of the bearing, and the connecting plate is connected with the inner ring of the bearing; the bottom plate is connected with the connecting plate through an elastic piece; the connecting plate is provided with a limiting plate, two limiting blocks are arranged in the base, and the limiting plate is positioned between the limiting blocks and used for limiting the swing angle of the supporting frame.

Compared with the prior art, the utility model has the beneficial effects that:

the operation platform of the simulated skiing game machine provided by the utility model has the advantages that the skiing pedal simulation device is matched with other parts of the existing simulated skiing game machine through the base, and the pedal sliding plate assembly of the skiing pedal simulation device can swing around the base and is used for simulating the action of left-right swing of a skiing plate; the pedal-ski assembly is also rotatable about its own longitudinal axis for simulating the cornering sideways tilting action of a snowboard when cornering. When an experimenter uses the operation platform of the simulated skiing game machine provided by the utility model to simulate turning actions, the handrail component is held by two hands, the two feet are stepped on the skiing pedal simulation device, the two feet swing to the turning sides, the pedal slide board component is driven to swing to the same side, the body is inclined to the turning sides, the pedal slide board component is driven to rotate to the same side, the skiing actions are restored more truly, the third dimension and the reality of the game are enhanced, and the game fun of the experimenter is met.

Drawings

The utility model is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic view of an operating platform of a simulated ski game according to the present utility model;

FIG. 2 is a schematic view of the structure of the ski foot simulation device according to the present utility model;

FIG. 3 is an exploded view of the ski foot simulation according to the present utility model;

FIG. 4 is a schematic view of a spacing device according to the present utility model;

FIG. 5 is a schematic view of the structure of the base according to the present utility model;

fig. 6 is a schematic view of a structure of the base-removed cover plate according to the present utility model.

In the figure:

1-a base; 11-mounting slots; a 111-limiting block; 12-mounting seats; 13-a bracket; 14-cover plate; 15 feet; 16-a roller;

2-a skiing pedal simulation device;

21-a base; 211-a bottom plate; 212-bearing; 2121-bearing outer ring; 2122-bearing inner ring; 213-connecting plates;

2131-limiting plates; 214-an elastic member;

22-supporting frames;

23-a pedal slide assembly; 231-pedal; 232-rotating shaft;

24-transmission mechanism; 241-third link; 242-fourth link; 243-a first gear; 244-a second gear;

25-a first potentiometer;

26-a second potentiometer; 261-connecting shaft; 262-third gear;

27-linkage mechanism; 271-a first link; 272-a second link;

28-a limiting device; 281-square sleeve; 282-square posts; 283-cylinder;

29-a brake;

3-armrest assembly; 31-supporting rods.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

As shown in fig. 1 to 3, an operation platform of a simulated skiing game machine according to the present utility model includes a base 1, a skiing pedal simulator 2 provided on the base 1, and an armrest assembly 3. The skiing pedal simulator 2 comprises a base 21, a support 22, and two pedal slide assemblies 23 arranged in parallel. The base 21 is fixedly arranged on the base 1, the pedal slide plate assembly 23 is hinged to the support frame 22, and the pedal slide plate assembly 23 can rotate around the axis of the pedal slide plate assembly in the length direction of the pedal slide plate assembly, so that the pedal slide plate assembly is used for simulating the tilting action to the turning side when a snowboard turns; the support frame 22 is hinged to the base 21, and since the pedal-slide assembly 23 is provided on the support frame 22, the pedal-slide assembly 23 can swing around the base 21 to simulate the left-right swing motion of the snowboard. In use, an experimenter holds the armrest assembly 3 with both hands, steps on the pedal-skateboard assembly 23 with both feet, and controls the rotation and swing of the pedal-skateboard assembly 23 through both feet to simulate the action of skiing.

Preferably, the handrail component 3 comprises a pair of support rods 31, the support rods 31 imitate the design of a snowstick, and an experimenter holds the support rods 31, so that the body balance can be ensured in the game process, the feeling of holding the snowstick in the skiing exercise can be experienced, and the three-dimensional sense and the sense of reality of the game are improved.

Preferably, the present utility model further includes a transmission 24, a first potentiometer 25 and a second potentiometer 26 for transmitting the swing motion information and the rotational motion information of the foot pedal assembly 23 to the central processor of the simulated skiing game to effect control of the action of the game character in the display. The pedal slide plate assembly 23 is in transmission connection with the first potentiometer 25, the pedal slide plate assembly 23 drives the first potentiometer 25 to rotate, and the first potentiometer 25 converts the rotation angle of the pedal slide plate assembly 23 into an electric signal. The support frame 22 is in transmission connection with the second potentiometer 26 through the transmission mechanism 24, the second potentiometer 26 can be driven to rotate through the transmission mechanism 24 when the support frame 22 swings, and the second potentiometer 26 converts the swinging angle of the pedal sliding plate assembly 23 into an electric signal. The first potentiometer 25 and the second potentiometer 25 are adopted to convert information, so that the information conversion is accurate and stable, and the structure of the utility model can be simplified.

Preferably, the pedal slide assembly 23 includes a pedal 231 and a spindle 232. The rotating shaft 232 is disposed along the length direction of the pedal 231, and is fixedly connected with the pedal, and two ends of the rotating shaft 232 are respectively hinged to the support frame 22.

If the two pedal-slide assemblies 23 rotate around the rotating shafts 232 independently, the two first potentiometers 25 are required to be in transmission connection with the two pedal-slide assemblies 23, however, the rotation angles of the two pedal-slide assemblies 23 are difficult to be kept consistent, and the electric signals output by the two first potentiometers 25 are inconsistent. In order to avoid the occurrence of the above situation, the utility model is provided with the linkage mechanism 27 between the two pedal slide assemblies 23, and the linkage mechanism 27 can ensure that the rotation angles of the two pedal slide assemblies 23 around the axes of the length directions of the two pedal slide assemblies are consistent at any time. Specifically, the linkage mechanism 27 includes a first connecting rod 271 and two second connecting rods 272 with identical lengths, one ends of the two second connecting rods 272 are respectively hinged to two ends of the first connecting rod 271, and the other ends of the second connecting rods 272 are respectively fixedly connected with a rotating shaft 232. At this time, a parallelogram is formed by a connection line between one end of the two rotating shafts 232 and one end of the second connecting rod 272, the first connecting rod 271 and the two second connecting rods 272, when one rotating shaft 232 rotates, the other rotating shaft 232 is driven to rotate by the linkage mechanism 27, and the rotating angles of the two rotating shafts 232 are the same. Since the rotation angles of the two pedal-slide assemblies 23 are the same at any one time, only one of the shafts 232 is required to be in driving connection with the first potentiometer 25.

Preferably, the pedal-slide assembly 23 is further connected with a limiting device 28, and the limiting device 28 is used for limiting the rotation angle of the pedal-slide assembly 23, so that the pedal-slide assembly 23 is returned to the horizontal position when no external force is applied to the pedal-slide assembly 23. In the actual skiing process, the angle of the skis (corresponding to the pedal-skateboard assembly 23) tilting to one side is within a certain range, so that the rotation angle of the pedal-skateboard assembly 23 in the utility model only needs to be kept within a certain range, and the limiting device 28 can ensure that the rotation angle changes within a specified range, which can also prevent the rotation angle from being too large, so that a game experimenter can lose balance and fall down. Specifically, as shown in fig. 4, the stopper 28 includes a square cylinder 281, a square column 282, and four elastic cylinders 283. The square cylinder 281 is fixed on the support frame 22, the cylinders 283 are respectively arranged at four corners in the cavity of the square cylinder 281, the square column 282 is arranged in the square cylinder 281, four sides of the square column 282 are respectively attached to sides of the four cylinders 283, the rotating shaft 232 penetrates through the square column 282, and the rotating shaft 232 is fixedly connected with the square column 282. When the pedal slide plate assembly 23 rotates, the square posts 282 squeeze the cylinders 283 to deform, when the deformation of the cylinders 283 reaches a limit, the pedal slide plate assembly 23 rotates to a limit position, when the pedal slide plate assembly 23 is not stressed, the cylinders 283 rebound to deform, and the pedal slide plate assembly 23 is driven to return to a horizontal position through the square posts 282.

Preferably, the present utility model further includes a brake 29, the brake 29 being coupled to the transmission 24, the brake 29 being configured to stop the swing of the foot pedal assembly 23. When the brake 29 is in the braking state, the brake 29 locks the transmission mechanism 24, the pedal slide assembly 23 cannot swing, and when the braking state is released, the pedal slide assembly 23 can continue to swing. Specifically, the transmission mechanism 24 includes a third link 241, a fourth link 242, a first gear 243, and a second gear 244. One end of the third connecting rod 241 is hinged to the supporting frame 22, the other end of the third connecting rod 241 is hinged to one end of the fourth connecting rod 242, the other end of the fourth connecting rod 242 and the first gear 243 are fixedly connected with the output shaft 91 of the brake 29, a third gear 262 is arranged on the connecting shaft 261 of the second potentiometer 26, and the second gear 244 is meshed with the first gear 243 and the third gear 262 respectively. When the brake 29 is in the braking state, neither the fourth link 242 nor the first gear 243 can rotate, so that the third link 241 cannot rotate, nor the support 22 cannot rotate about the base 21 because the third link 241 is hinged to the support 22, i.e., the pedal slide assembly 23 cannot swing about the base 21. The base 1 is also provided with a detachable mounting seat 12 and a bracket 13, a brake 29 is arranged in the mounting seat 12, and a second potentiometer 26 is arranged on the bracket 13. The brake 29 is a precision component, and when the brake 29 needs to be replaced, repaired and maintained, the brake 29 can be quickly disassembled by removing the mounting seat 12.

Preferably, as shown in fig. 5, the base 21 includes a bottom plate 211, a bearing 212, a connection plate 213, and an elastic member 214. The bottom plate 211 is connected with the outer ring 121 of the bearing, the connecting plate 213 is connected with the inner ring 122 of the bearing, meanwhile, the bottom plate 211 and the connecting plate 213 are also connected through an elastic piece 214, and the connecting plate 213 is also used for connecting the supporting frame 22. When the pedal slide plate assembly 23 swings around the base, the elastic member 214 is deformed in a torsion mode, when the elastic member 214 reaches the deformation limit, the pedal slide plate assembly 23 swings to the limit position, when the pedal slide plate assembly 23 is not subjected to external force, the elastic member 214 is deformed in a rebound mode, and the pedal slide plate assembly 23 swings back to the initial position under the action of the rebound force of the elastic member 214.

Preferably, as shown in fig. 1, 5 and 6, a cover plate 14 is provided on the base 1, a mounting groove 11 is provided in the base 1, and a base 21 is mounted in the mounting groove 11. Two limiting blocks 111 are arranged on the side wall in the mounting groove 11, a limiting plate 2131 is arranged on the connecting plate 213, and the limiting plate 2131 is positioned between the two limiting blocks 111 and used for limiting the swing angle of the pedal and sliding plate assembly 23. The specific process is as follows: when the pedal slide assembly 23 swings, the limiting plate 2131 is driven to swing, and when the limiting plate 2131 contacts the limiting block 111, the swing of the pedal slide assembly 23 is limited. The addition of the limiting plate 2131 and the limiting block 111 can replace the elastic piece 214 to realize the function of limiting the swinging angle of the pedal-sliding plate assembly 23, and the swinging of the pedal-sliding plate assembly 23 is not limited by means of the elastic piece 214 deforming to the limit, so that the service life of the elastic piece 214 is prolonged. The bottom of base 1 is equipped with a plurality of lower margin 15, and lower margin 15 is used for adjusting base 1 to the level and supporting base 1. The bottom of the base 1 is also provided with a plurality of rollers 16, which is convenient for the transportation of the base 1. The base 1 is also provided with a lamp strip 17, thereby improving the appearance and the interest.

Other structures of an operating platform of a simulated ski game machine according to this embodiment are known in the art.

The present utility model is not limited to the preferred embodiments, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present utility model are within the scope of the technical proposal of the present utility model.

Claims (7)

1. An operating platform of a simulated skiing game machine, characterized in that:

comprises a base, a skiing pedal simulation device arranged on the base and an armrest assembly;

the skiing pedal simulation device comprises a support frame, two pedal slide plate assemblies and a base, wherein the pedal slide plate assemblies and the base are arranged in parallel;

the base is fixedly arranged on the base;

the pedal sliding plate assembly is rotationally arranged on the support frame around the axis of the pedal sliding plate assembly in the length direction;

the support frame is hinged to the base and used for enabling the pedal sliding plate assembly to swing around the base;

the base comprises a bottom plate, a bearing, an elastic piece for driving the pedal sliding plate assembly to return to an initial position and a connecting plate for connecting the support frame;

the bottom plate is connected with the outer ring of the bearing, and the connecting plate is connected with the inner ring of the bearing;

the bottom plate is connected with the connecting plate through an elastic piece;

the connecting plate is provided with a limiting plate, two limiting blocks are arranged in the base, and the limiting plate is positioned between the limiting blocks and used for limiting the swing angle of the pedal sliding plate assembly;

the support frame is also connected with a transmission mechanism;

the support frame is in transmission connection with a second potentiometer through the transmission mechanism and is used for driving the second potentiometer to rotate;

the base is provided with a bracket, and the second potentiometer is fixedly arranged on the bracket;

the transmission mechanism is also connected with a brake for stopping the pedal slide plate assembly from swinging around the base;

the transmission mechanism comprises a third connecting rod, a fourth connecting rod, a first gear and a second gear;

one end of the third connecting rod is hinged to the supporting frame, and the other end of the third connecting rod is hinged to one end of the fourth connecting rod;

the other end of the fourth connecting rod and the first gear are fixedly connected with an output shaft of the brake;

a third gear is arranged on the connecting shaft of the second potentiometer, and the second gear is meshed with the first gear and the third gear respectively;

the base is provided with a detachable mounting seat, and the brake is arranged in the mounting seat.

2. An operating platform for a simulated ski game as claimed in claim 1, wherein:

the pedal sliding plate assembly is also in transmission connection with a first potentiometer so as to drive the first potentiometer to rotate.

3. An operating platform for a simulated ski game as claimed in claim 2, wherein:

the pedal slide plate assembly comprises a pedal and a rotating shaft arranged on the pedal;

both ends of the rotating shaft are respectively hinged to the supporting frame.

4. A simulated ski game console as claimed in claim 3, wherein:

a linkage mechanism is arranged between the two pedal slide plate assemblies and used for ensuring that the rotation of the two pedal slide plate assemblies is kept synchronous.

5. An operating platform for a simulated ski game as in claim 4, wherein:

the linkage mechanism comprises a first connecting rod and two second connecting rods which are respectively hinged to two ends of the first connecting rod;

the second connecting rods are fixedly connected with the rotating shafts respectively.

6. An operating platform for a simulated ski game as in claim 4, wherein:

the rotating shaft is in transmission connection with the first potentiometer.

7. A simulated ski game console as claimed in claim 3, wherein:

the pedal slide plate assembly is also connected with a limiting device for limiting the rotation angle of the pedal slide plate assembly and driving the pedal slide plate assembly to return to the horizontal position;

the limiting device comprises a square sleeve, square columns and four elastic columns;

the cylinders are respectively arranged at four corners in the cavity of the square sleeve, the square columns are arranged in the square sleeve, and four side surfaces of the square columns are respectively attached to the side surfaces of the four cylinders;

the rotating shaft is fixedly connected with the square column.