CN207532734U - Gliding motility simulator - Google Patents

Abstract

The utility model belongs to sports apparatus field, specifically provides a kind of gliding motility simulator.The utility model aims to solve the problem that existing gliding motility analog machine can not allow user to obtain the technical issues of more really sliding experience.For this purpose, the gliding motility simulator of the utility model includes：Fixer for feet part is used for the both feet of regular user；Pivotal mounts are connected to the bottom of fixer for feet part at the top of pivotal mounts so that fixer for feet part can be rotated relative at least part of pivotal mounts；Lower support structure is pivotally connected to the bottom of pivotal mounts, is used to support pivotal mounts and fixer for feet part so that pivotal mounts can pivot together with fixer for feet part relative to lower support structure around vertical axis.By above structure, the emulation experience of user has been significantly increased in the utility model, while beginner can also be made to slide analog machine study to more complete technical movements to link up, training for promotion effect by this.

Description

Gliding motility simulator

Technical field

The utility model belongs to sports apparatus field, specifically provides a kind of gliding motility simulator.

Background technology

Gliding motility can bring pleasant sensation and the fabulous impression that people go at express speed, at the same can make one body and mind it is pleasant, Loosen mood.More and more people have been added in the troop of gliding motility.But each gliding motility all likes movement Person has very high requirement, and the control ability of good balanced capacity, fitness and body is the key that grasp gliding motility, Therefore, gliding motility is there is higher technical difficulty, beginner can because technical merit limits and it is low fall and hurt, to begining to learn The body and mind of person all brings influence, and therefore, this movement needs training for a long time that could grasp the application method of sports equipment, into And experience the outstanding impression that gliding motility is brought.

In order to make, beginner is safer, grasp the skill of gliding motility more quickly and improve technical level and makes tool The user of standby certain technical merit enjoys better pseudo-experience, occurs multiple analog equipment successively on the market, such as skis Training aids, skidding training aids etc..

By taking skiing as an example, sportsman is slided forward during skiing with certain speed, due to by external force and steering When centrifugal force influence, sportsman foot needs to overcome external force, and beginner needs to learn action adjustment center of gravity of how making a response, And then external force is overcome to influence, therefore, for the user, other than study profession action, experience comprehensively and overcome not The external force brought with scene and the influence of centrifugal force become particularly important.But existing analog machine is merely able to meet and use Breaking down for some professions is made by the foot of person, and since existing equipment technology is limited, the foot of simulator user can not As true skiing is the same nimbly and freely, thus user can not be experienced in really sliding outside when making complete set technical movements Power gives the influence of body, and body can not also obtain complete and coherent action training.

Correspondingly, this field needs a kind of new gliding motility simulator to solve the above problems.

Utility model content

In order to solve the above problem of the prior art, can not allow in order to solving existing gliding motility analog machine makes User obtains the technical issues of more really sliding experience.For this purpose, the utility model provides a kind of gliding motility simulation Device, including：Fixer for feet part is used for the both feet of regular user；Pivotal mounts, the top connection of the pivotal mounts To the bottom of the fixer for feet part so that the fixer for feet part can turn relative at least part of the pivotal mounts It is dynamic；Lower support structure is pivotally connected to the bottom of the pivotal mounts, is used to support the pivotal mounts and institute State fixer for feet part so that the pivotal mounts can together with the fixer for feet part relative to the lower support structure around Vertical axis pivots.

In the optimal technical scheme of above-mentioned gliding motility simulator, the pivotal mounts include being pivotally connected to one another Undersetting and upper bracket, the undersetting is pivotally connected to the lower support structure so that the pivotal mounts It can be pivoted together with the fixer for feet part relative to the lower support structure around vertical axis；The upper bracket is can slide Flowing mode is connected to the bottom of the fixer for feet part so that the fixer for feet part can be slided relative to entire pivotal mounts And it is rotated together with the upper bracket relative to the undersetting.

In the optimal technical scheme of above-mentioned gliding motility simulator, the undersetting and the lower support structure In one on be provided with vertical shaft, be provided with vertical axis on another in the undersetting and the lower support structure Hole, the undersetting is by the engagement of the vertical shaft and the vertical axis hole and with can be around vertical axis pivotably It is connected to the lower support structure.

In the optimal technical scheme of above-mentioned gliding motility simulator, the undersetting and the lower support structure Between be provided with the first damping member, when the undersetting is rotated relative to the lower support structure around vertical axis, institute It states the first damping member and provides damping for the undersetting.

In the optimal technical scheme of above-mentioned gliding motility simulator, one in the upper bracket and the undersetting It is provided with lateral shaft on a, lateral axis hole, the upper branch is provided on another in the upper bracket and the undersetting Seat is by the engagement of the lateral shaft and the lateral axis hole and can pivotably be connected to the lower branch to both sides Seat, so as to which the upper bracket be enable to be swung left and right rotation relative to the undersetting together with the fixer for feet part.

In the optimal technical scheme of above-mentioned gliding motility simulator, set between the upper bracket and the undersetting The second damping member is equipped with, when the upper bracket is rotated relative to the undersetting around transverse axis, the second damping structure Part provides damping for the upper bracket.

In the optimal technical scheme of above-mentioned gliding motility simulator, the bottom of the fixer for feet part is provided with cunning Slot is provided with sliding block at the top of the upper bracket, and the sliding block is engaged with the sliding slot and can be slided in the sliding slot.

In the optimal technical scheme of above-mentioned gliding motility simulator, it is provided between the sliding block and the sliding slot Third damping member, when the sliding block slides in the sliding slot, the third damping member provides damping for the sliding block.

In the optimal technical scheme of above-mentioned gliding motility simulator, the fixer for feet part is fixed including the first foot Device and the second fixer for feet part, first fixer for feet part are used for the foot of regular user, and second foot is fixed Device is used for the another foot of regular user.

In the optimal technical scheme of above-mentioned gliding motility simulator, the upper bracket includes the first upper bracket and second Upper bracket, the undersetting include the first undersetting and the second undersetting, first upper bracket and second upper bracket point It is not connected to the bottom of first fixer for feet part and the second fixer for feet part.

In the optimal technical scheme of above-mentioned gliding motility simulator, first fixer for feet part and the crus secunda Portion's fixator respectively includes the first slide plate and the second slide plate and the first foot being arranged on first slide plate and the second slide plate Portion's fixing component and second foot's fixing component, first foot fixing component and second foot's fixing component are respectively used to solid Determine the both feet of user, first slide plate and the second slide plate are connected to first upper bracket and described in its bottom respectively Two upper brackets.

In the optimal technical scheme of above-mentioned gliding motility simulator, the gliding motility simulator further includes driving Device, the driving device include at least one of lower row driver being arranged in the lower support structure：Driving institute State first foot's driver that first foot's fixing component is rotated relative to the undersetting；Second foot is driven to fix structure Second foot's driver that part is rotated relative to the undersetting.

In the optimal technical scheme of above-mentioned gliding motility simulator, the gliding motility simulator is skiing simulation Device, grass skating simulator, skidding simulator, Sand Skiing simulator, surfing simulator, skate simulator and mould of striking Intend one kind in device.

It will be appreciated to those of skill in the art that in the optimal technical scheme of the utility model, by above structure, Pivotal mounts can pivot together with fixer for feet part relative to lower support structure around vertical axis, so as to allow user Experience the turning situation in true skiing.

In addition, on the one hand, fixer for feet part can drive the front end of the first snow slab and/or the second snow slab by vertical shaft It inwards draws close, accurately simulates the technical movements, while under the action of the first damping member, the foot of user can Experience the reaction force of the first damping member generation, so as to allow user ankle-joint and leg experience in true skiing and do The resistance of motion from snowfield when going out the technical movements.

On the other hand, in accelerator, fixer for feet part drives the first snow slab and/or the second snow slab by lateral shaft Inclination inwardly, while under the action of the second damping member, the foot of user can experience the production of the second damping member Raw reaction force, when making the technical movements in true skiing so as to which user be allowed to experience the resistance of motion from snowfield with And motional inertia.

In another aspect, when the gliding motility simulator of the utility model is used for the skiing of simulated dual plate, turning When needed in journey into line direction and balance control, user can (i.e. the first slide plate and second be slided by outer legs in adjusting Plate) relative position make " inside is leading " action, the both legs coordinated movement of various economic factors controls steering slide action, due to first slide plate with Be respectively arranged between first upper bracket and between the second slide plate and the second upper bracket be capable of the opposite the first sliding groove slided and First sliding block and second sliding slot and the second sliding block, therefore, user can change the in experience of the process by interior outer legs The relative position of one sliding block and the second sliding block, while under the action of third damping member, the foot of user can experience The reaction force that third damping member generates, from snow when making the technical movements in true skiing so as to which user be allowed to experience The resistance of motion on ground.When the gliding motility simulator of the utility model is used for analog veneer skiing, user can root The sliding block and the relative position of sliding slot that come between adjusting slider and upper bracket according to parameters such as the height of oneself, weight are simultaneously consolidated It is fixed, to adjust both legs degree of separation, usage comfort is provided, improves pseudo-experience.

The situation and three kinds of damping forces simulations for simulating skiing by above-mentioned three kinds give foot in really skiing Impression, the simulator of the utility model can accurately simulate the complex situations in true skiing, can not only allow use Person completes simulated action, additionally it is possible to user be allowed to experience the physical experience of body in true skiing.It is accurate for primary slider Really, link up and complete skiing skill pseudo-experience is conducive to training for promotion effect.

Description of the drawings

Simulator is avenged to describe the preferred embodiment of the utility model, attached drawing with reference to the accompanying drawings and with reference to two-ski slide In：

Fig. 1 is the front view of the skiing simulator of the utility model；

Fig. 2 is the right view of the skiing simulator of the utility model；

Fig. 3 is the schematic diagram when skiing simulator simulation of the utility model is slowed down；

Fig. 4 is the front-view schematic diagram when skiing simulator simulation of the utility model is turned left；

Fig. 5 is the schematic rear view when simulation of the skiing simulator of the utility model is turned left；

Fig. 6 is the schematic diagram when skiing simulator of the utility model is transformed into Halfpipe state.

Reference numerals list：

11st, the first fixer for feet part；111st, the first slide plate；112nd, first foot's fixing component；1121 first pedals； 1122nd, first foot's rope band；1123rd, the first leg rope band；1124th, the first connecting elements；12nd, the second fixer for feet part；121、 Second slide plate；122nd, second foot's fixing component；1221st, the second pedal；1222nd, second foot's rope band；1223rd, the second leg is restricted Band；1224th, the second connecting elements；21st, the first pivotal mounts；211st, the first upper bracket；212nd, the first undersetting；22nd, the second pivot Turn bearing；221st, the second upper bracket；222nd, the second undersetting；23rd, vertical shaft；24th, lateral shaft；3rd, lower support structure； 41st, the first damping member；42nd, the second damping member；

Specific embodiment

First, it will be apparent to a skilled person that these embodiments are used only for explaining the utility model Technical principle, it is not intended that limitation the scope of protection of the utility model.For example, although the description and the appended drawings are to avenge to make with two-ski slide It is described for preferred embodiment, however, it will be apparent that skis can also other gliding members (such as pulley, Sand Skiing plate etc. Deng) substitute, so that the technical solution of the utility model is applied to other glides, those skilled in the art can basis It needs to make adjustment to it, to adapt to specific application scenario.Particularly, the technical solution of the utility model obviously can answer It is simulated for Halfpipe, and when being simulated applied to Halfpipe, Liang Ge foots fixing component can be arranged to phase For slide plate around vertical axis rotation, to adjust the angle of human body both feet according to the custom of different users.On the other hand, The separated angle of both legs can also be adjusted by the cooperation of the sliding block and sliding slot, so as to preferably be compatible with different heights The fidelity for using crowd, improving analog machine of weight is enriched, lifter motion experience.

It should be noted that in the description of the present invention, term " on ", " under ", "left", "right", " interior ", " outer ", The direction of the instructions such as "front", "rear" or the term of position relationship are based on direction shown in the drawings or position relationship, this is only For ease of description rather than indicate or imply that described device or element there must be specific orientation, with specific orientation structure It makes and operates, therefore it is not intended that limitation to the utility model.In addition, term " first ", " second " are only used for description mesh , and it is not intended that instruction or hint relative importance.

In addition it is also necessary to explanation, in the description of the present invention, unless otherwise clearly defined and limited, art Language " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected or It is integrally connected；Can be mechanical connection or electrical connection；It can be directly connected, it can also be by between intermediary It connects connected, can be the connection inside two elements.To those skilled in the art, can understand as the case may be above-mentioned Concrete meaning of the term in the utility model.

Referring initially to Fig. 1, Fig. 2 and Fig. 3, Fig. 1 is the front view of the skiing simulator of the utility model；Fig. 2 is this reality With the right view of novel skiing simulator；Fig. 3 is the schematic diagram when skiing simulator simulation of the utility model is slowed down. As shown in Figure 1, 2, 3, two-ski slide snow motion simulator includes：Fixer for feet part 11,12 is used for the double of regular user Both feet can be placed into fixer for feet part 11,12 by foot, when in use, user, to support the both feet of user and mould Intend slide action, such as the technical movements such as steering, deceleration；Pivotal mounts 21,22, are connected respectively to the fixer for feet part 11st, 12 bottom so that the fixer for feet part 11,12 can be relative at least part (tool of the pivotal mounts 21,22 Body is undersetting 212,222) rotates, and to simulate in true skiing scene, vertical sword that sportsman makes rubs the technologies such as snow turning with the hands Action；Lower support structure 3 is pivotably connected to the bottom of the pivotal mounts 21,22, is used to support the pivot Turn bearing 21,22 and the fixer for feet part 11,12 so that the pivotal mounts 21,22 can with the fixer for feet part 11, 12 pivot together relative to the lower support structure 3 around vertical axis.

Referring next to Fig. 4 and with continued reference to Fig. 3, Fig. 4 be the utility model skiing simulator simulation turn left when before Depending on schematic diagram.As shown in figure 4, the pivotal mounts 21,22 respectively include the undersetting being pivotally connected to one another 212,222 and upper bracket 211、221.Specifically, the undersetting 212,222 is pivotally connected to the both ends of lower support structure 3, upper bracket 211st, 221 bottom for being slidably coupled to fixer for feet part 11,12 respectively so that fixer for feet part 11,12 can It slides relative to entire pivotal mounts 21,22 and is swung left and right together relative to undersetting 212,222 with upper bracket 211,221 Rotation.

With continued reference to Fig. 3 and Fig. 4, vertical shaft 23 is provided on undersetting 212,222, is set in lower support structure 3 There is vertical axis hole (not shown), the undersetting 212,222 is by the engagement of vertical shaft 23 and vertical axis hole with can be around Vertical axis is pivotably connected to lower support structure 3.In addition to this, it can also be set in lower support structure 3 perpendicular To shaft 23, vertical axis hole is set on undersetting 212,222, can equally realize that undersetting 212,222 is tied with bottom support The vertical of structure 3 is pivotally connected.Since with above structure, fixer for feet part 11,12 can pass through undersetting 212,222 and bottom Supporting mechanism 3 is pivotally connected mode relative to 3 rotation of lower support structure, accurately simulates sportsman during skiing The technical movements that the toes turned inward side of both feet or single foot is closed up when deceleration either turns to, so as to make the skiing analog machine more The technical movements that sportsman can make in true skiing are comprehensively showed, the experience emulation of user has been significantly increased Degree, while beginner is also made to slide analog machine study to more complete technical movements to link up by this, in order to avoid on the spot It is fallen and hurt during practice.

With continued reference to Fig. 3 and Fig. 4, the first damping structure is additionally provided between the undersetting 212,222 and lower support structure 3 Part 41, when undersetting 212,222 is rotated relative to lower support structure 3 around vertical axis, the first damping member 41 is lower branch Seat 212,222 provides bidirectional damper.Preferably, which uses two springs, and one end of the first spring connects To the front end of undersetting 212,222, the other end is connected to lower support structure 3, and one end of second spring is connected to undersetting 212nd, 222 rear end, the other end are connected to lower support structure 3, the first spring and second spring be in parastate and Vertical with the simulation direction of travel of fixer for feet part during original state 11,12, no matter the fixer for feet part 11,12 is to any direction Rotation, all can be by the first spring or the opposition of second spring.When user simulate slow down in true skiing or During the technical movements that the toes turned inward side of steering, both feet or single foot is closed up, pass through the first spring and the phase interworking of second spring It closes, the foot of user can be allowed to experience resistance, so as to visually simulate in really skiing situation, due to changing snow slab Direction and the resistance from snowfield being subject to, therefore, the skiing analog machine more fully show sportsman in true skiing The sense of reality of user, has been significantly increased user experience during the technical movements made.Although attached drawing be using spring as What the preferred embodiment of the first damping member 41 was described, it is apparent that can also substitute in other ways, such as hydraulic pressure Cylinder or cylinder etc..In addition, the first damping member 41 also has the function of to limit fixer for feet part 11,12 rotation angles.

It sees and treat patients refering to Fig. 5 and with continued reference to Fig. 3 and Fig. 4, when Fig. 5 is that the skiing simulator simulation of the utility model is turned left Schematic rear view.As shown in figure 5, being provided with lateral shaft 24 on upper bracket 211,221, it is provided on undersetting 212,222 Lateral axis hole, the upper bracket 211,221 is by the engagement of lateral shaft 24 and lateral axis hole and the side can be pivoted to both sides Formula is connected to undersetting 212,222, so as to enable upper bracket 211,221 with fixer for feet part 11,12 together relative to lower branch Seat 212,222 is swung left and right rotation.In addition to this, lateral shaft can also be set on undersetting 212,222, upper bracket 211, Lateral axis hole on 221 is set, can equally realize that upper bracket 211,221 and the transverse direction of undersetting 212,222 are pivotally connected, make Bearing 211,221 can be swung left and right rotation relative to undersetting 212,222 together with fixer for feet part 11,12.Due to having Above structure, fixer for feet part 11,12 can be tilted by pivotal mounts 21,22 relative to lower support structure 3, accurately For simulation sportsman when changing center of gravity, both feet or single foot control skis make state during turning action, and allow use When person has experienced change center of gravity, body is influenced by centrifugal forces affect, therefore this skiing analog machine more fully shows The specification technique action that sportsman can make in true skiing, has been significantly increased the experience fidelity of user, while Beginner is made to slide analog machine study to more complete technical movements to link up by this, in order to avoid fallen down when practicing on the spot It is injured.

With continued reference to Fig. 3 and Fig. 4, in order to which user is allowed further to experience the resistance from snowfield during true skiing Power is additionally provided between the two-ski slide snow upper bracket 211,221 of motion simulator and undersetting 212,222 of the utility model Second damping member 42, when upper bracket 211,221 is rotated relative to undersetting 212,222 around transverse axis, second damping Component 42 provides bidirectional damper power for upper bracket 211,221, and then when user being allowed to experience tilt fixer for feet part 11,12, Experience the resistance from snowfield in true skiing.Preferably, which uses torsional spring, and torsional spring is nested in transverse direction In shaft, no matter fixer for feet part 11,12 is rotated relative to undersetting 212,222 to which side, all can be by the reversed of torsional spring Active force.When user simulates left-leaning or Right deviation in reality skiing, the opposition generated is synchronized by torsional spring, it can The foot of user is allowed to experience resistance, so as to visually simulate in really skiing situation, due to change snow slab direction The resistance from snowfield being subject to, therefore, the skiing analog machine more fully show what sportsman in true skiing made The sense of reality of user, has been significantly increased user experience during technical movements.Although attached drawing is using torsional spring as the second resistance What the preferred embodiment of Buddhist nun's component 42 was described, it is apparent that can also substitute in other ways, for example (,) it is torsion-bar spring, double Side supporting cylinder/cylinder etc..In addition, work of second damping member 42 also with limitation fixer for feet part 11,12 angles of inclination With.

With continued reference to Fig. 3, Fig. 4 and Fig. 5, fixer for feet part 11,12 includes the first fixer for feet part 11 and the second foot consolidates Determine device 12, the first fixer for feet part 11 is used for the foot of regular user, and the second fixer for feet part 12 is used for regular user Another foot.First fixer for feet part 11 and the second fixer for feet part 12 pivot branch with the first pivotal mounts 21 and second respectively Seat 22 connects.Specifically, which respectively includes under the first upper bracket 211, first 212 and second upper bracket 221 of bearing, the second undersetting 222, wherein, the first upper bracket 211 and the second upper bracket 221 are distinguished It is connected to the bottom of the first fixer for feet part 11 and the second fixer for feet part 12.Specifically, the first fixer for feet part 11 and Two fixer for feet part 12 respectively include the first slide plate 111 and the second slide plate 121 and are arranged on the first slide plate 111 and the second slide plate First foot's fixing component 112 and second foot's fixing component 122 on 121, first foot's fixing component 112 and the second foot Fixing component 122 is respectively used to the both feet of regular user, and the first slide plate 111 and the second slide plate 121 are fixed respectively in its bottom Connect or be integrated into the first upper bracket 211 and the second upper bracket 221.In a preferred embodiment, the first slide plate 111 and The bottom of two slide plates 121 is respectively arranged with the first sliding groove and second sliding slot (not indicated in figure), on the first upper bracket 211 and second The top of bearing 221 is respectively arranged with the first sliding block and the second sliding block (not indicated in figure), the first sliding block and the second sliding block difference It engages and can be slided wherein with the first sliding groove and second sliding slot.It is highly preferred that the first sliding block and the second sliding block is front and rear Third damping member (not shown) is both provided between the inner wall of both ends and the first sliding groove and second sliding slot so that no matter One sliding block and the second sliding block still slide backward forward relative to the first sliding groove and second sliding slot, and third damping member all can be the One sliding block and the second sliding block provide damping.As an example, third damping member can be the damping member such as spring.Accordingly Ground, during user simulates skiing, the first slide plate 111 and the second slide plate 121 can be not at same position, example When such as turning to, inside leg is forward, and rearward, damping member can be such that sliding block is returned to sliding slot non-to outer legs after completion is turned to Position is damped, impression is most really slided thus, can be provided for user, significantly promotes user experience and training It is horizontal.

With continued reference to Fig. 3, Fig. 4 and Fig. 5, first foot's fixing component 112 further include the first pedal 1121 and it is elastic can The first foot's rope band 1122 for regular user foot adjusted, the first foot rope band 1122 are arranged on the first pedal 1121 On, it can be fixed so as to the user of foot's difference size by first foot's rope band 1122.It on the other hand, can be with First leg rope band 1123 is set.Specifically, fixed first connecting elements 1124 on the first pedal 1121, the first leg rope band 1123 are arranged on the upper end of the first connecting elements 1124, when user is placed on foot on the first pedal 1121, the first leg Rope band 1123 can adjustably fix the first connecting elements 1124 and the leg of user；Similarly, the second foot is fixed Component 122 can also include the second pedal 1221 and elastic adjustable second foot's rope band for regular user foot 1222, which is arranged on the second pedal 1221, can lead to so as to the user of foot's difference size Second foot's rope band 1222 is crossed to be fixed.On the other hand, the second leg rope band 1223 can also be set.Specifically, second Fixed second connecting elements 1224 on pedal 1221, the second leg rope band 1223 are arranged on the upper end of the second connecting elements 1224, When user is placed on foot on the second pedal 1221, the second leg rope band 1223 can be adjustably by the second connecting elements 1224 fix with the leg of user.

In conclusion as shown in figure 3, when user simulates speed-down action, fixer for feet part 11,12 can be by vertical Shaft 23 makes the first snow slab and/or the front end of the second snow slab inwards draw close, and accurately simulates the technical movements, while Under the action of one damping member 41, the foot of user can experience the reaction force of the first damping member 41 generation, so as to Allow user experience actually slide in the damping from snowfield when making the technical movements.In addition, in moderating process, in order to Effect is more obvious, and sportsman can tilt the outside of the first snow slab and/or the second snow slab, carries out clear snow using its inside to reach To better slowing effect, at this point, fixer for feet part 11,12 makes the first snow slab and/or the second snow slab by lateral shaft 24 It tilts inwardly, realizes the technical movements, while under the action of the second damping member 42, the foot of user can experience The reaction force generated to the second damping member 42, the resistance from snowfield when making the technical movements so as to which user be allowed to experience Buddhist nun.Further, when needing to carry out direction controlling during turning, user can also be by adjusting the first snow slab and second The relative position of snow slab controls direction of travel, due to 121 He of the first slide plate 111 and the first upper bracket 211 and the second slide plate Second upper bracket 221 is respectively arranged with being capable of the opposite the first sliding groove slided and the first sliding block and second sliding slot and the second cunning Block, therefore, user can change the relative position of the first sliding block and the second sliding block during turning by interior outer legs, together When under the action of third damping member, the foot of user can experience the reaction force of third damping member generation, from And user is allowed to experience the damping from snowfield when making the technical movements.Pass through the situation of above-mentioned three kinds simulation skiings And the impression of foot is given in three kinds of true skiing of damping force simulation, the simulator of the utility model being capable of accurate simulation Go out the complex situations in true skiing, user can not only be allowed to complete simulated action, additionally it is possible to user be allowed to experience really The physical experience of body in skiing.

Finally refering to Fig. 6, Fig. 6 is the schematic diagram when skiing simulator of the utility model is transformed into single board state.Such as Shown in Fig. 6, the utility model skiing simulator Liang Ge foots fixing component can relative to slide plate around vertical axis from Turn, to adjust the angle of human body both feet according to the custom of different users.In the preferred embodiment of Fig. 6, Liang Ge foots Fixing component relative to slide plate around 90 degree of vertical axis rotation, so as to slide plate degree in a vertical angle, still, the utility model Technical solution is clearly not limited to this.On the other hand, relative to slide plate rotation and therefore it is switched to list in foot's fixing component After board status, the separated angle of user's both legs can also be adjusted by the cooperation of above-mentioned sliding block and sliding slot, so as to The fidelity for using crowd, improving equipment of different height and weights is preferably compatible with, is enriched, lifter motion experience.

Finally, it will be readily appreciated by those skilled in the art that although being to combine skiing analog machine to describe here, It is that the gliding motility simulator of the utility model can also be applied to simulate other gliding motilities, such as simulation grass skating, surfing And Sand Skiing etc..

So far, it has been combined preferred embodiment shown in the drawings and describes the technical solution of the utility model, still, this Field technology personnel are it is easily understood that the scope of protection of the utility model is expressly not limited to these specific embodiments. Without departing from the utility model principle under the premise of, those skilled in the art can make the relevant technologies feature equivalent change Or replace, the technical solution after these are changed or replace it is fallen within the scope of protection of the utility model.

Claims (13)

1. a kind of gliding motility simulator, which is characterized in that the gliding motility simulator includes：

Fixer for feet part is used for the both feet of regular user；

Pivotal mounts are connected to the bottom of the fixer for feet part at the top of the pivotal mounts so that the fixer for feet part It can be rotated relative at least part of the pivotal mounts；

Lower support structure is pivotally connected to the bottom of the pivotal mounts, be used to support the pivotal mounts and The fixer for feet part so that the pivotal mounts can be together with the fixer for feet part relative to the lower support structure It is pivoted around vertical axis.

2. gliding motility simulator according to claim 1, which is characterized in that the pivotal mounts are included pivotally The undersetting and upper bracket of connection, the undersetting are pivotally connected to the lower support structure so that the pivot Bearing can pivot together with the fixer for feet part relative to the lower support structure around vertical axis；The upper bracket with Slidably mode is connected to the bottom of the fixer for feet part so that the fixer for feet part can be relative to entire pivotal mounts It slides and is rotated together with the upper bracket relative to the undersetting.

3. gliding motility simulator according to claim 2, which is characterized in that the undersetting and bottom support It is provided with vertical shaft on one in structure, is provided on another in the undersetting and the lower support structure perpendicular To axis hole, the undersetting is by the engagement of the vertical shaft and the vertical axis hole and can be pivoted around vertical axis Mode is connected to the lower support structure.

4. gliding motility simulator according to claim 3, which is characterized in that the undersetting is supported with the bottom The first damping member is provided between structure, when the undersetting is rotated relative to the lower support structure around vertical axis When, first damping member provides damping for the undersetting.

5. gliding motility simulator according to claim 3, which is characterized in that in the upper bracket and the undersetting One on be provided with lateral shaft, be provided with lateral axis hole on another in the upper bracket and the undersetting, it is described Upper bracket is by the engagement of the lateral shaft and the lateral axis hole and described can be pivotably connected to both sides Undersetting, so as to which the upper bracket be enable to be swung left and right rotation relative to the undersetting together with the fixer for feet part.

6. gliding motility simulator according to claim 5, which is characterized in that the upper bracket and the undersetting it Between be provided with the second damping member, when the upper bracket is rotated relative to the undersetting around transverse axis, it is described second resistance Buddhist nun's component provides damping for the upper bracket.

7. gliding motility simulator according to claim 5, which is characterized in that the bottom setting of the fixer for feet part There is sliding slot, sliding block is provided at the top of the upper bracket, the sliding block engages with the sliding slot and can be in the sliding slot It slides.

8. gliding motility simulator according to claim 7, which is characterized in that set between the sliding block and the sliding slot Third damping member is equipped with, when the sliding block slides in the sliding slot, the third damping member is provided for the sliding block Damping.

9. the gliding motility simulator according to any one of claim 2 to 8, which is characterized in that the foot is fixed Device includes the first fixer for feet part and the second fixer for feet part, and first fixer for feet part is used for one of regular user Foot, second fixer for feet part are used for the another foot of regular user.

10. gliding motility simulator according to claim 9, which is characterized in that the upper bracket includes propping up on first Seat and the second upper bracket, the undersetting include the first undersetting and the second undersetting, first upper bracket and described second Upper bracket is connected respectively to the bottom of first fixer for feet part and the second fixer for feet part.

11. gliding motility simulator according to claim 10, which is characterized in that first fixer for feet part and Second fixer for feet part respectively includes the first slide plate and the second slide plate and is arranged on first slide plate and the second slide plate On first foot's fixing component and second foot's fixing component, first foot fixing component and second foot's fixing component The both feet of regular user are respectively used to, first slide plate and the second slide plate are connected on described first respectively in its bottom to be propped up Seat and second upper bracket.

12. gliding motility simulator according to claim 11, which is characterized in that the gliding motility simulator is also Including driving device, the driving device includes be arranged in the lower row driver in the lower support structure at least one It is a：First foot's driver that first foot fixing component is driven to be rotated relative to the undersetting；Drive described second Second foot's driver that foot's fixing component is rotated relative to the undersetting.

13. gliding motility simulator according to any one of claim 1 to 8, which is characterized in that the gliding motility Simulator is skiing simulator, grass skating simulator, skidding simulator, Sand Skiing simulator, surfing simulator, cunning One kind in ice simulator and simulator of striking.