CN207085256U - Upper body stabilising arrangement for gliding motility analog machine - Google Patents
Upper body stabilising arrangement for gliding motility analog machine Download PDFInfo
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- CN207085256U CN207085256U CN201720861817.7U CN201720861817U CN207085256U CN 207085256 U CN207085256 U CN 207085256U CN 201720861817 U CN201720861817 U CN 201720861817U CN 207085256 U CN207085256 U CN 207085256U
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- analog machine
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- upper body
- support
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Abstract
The utility model belongs to sports apparatus field, specifically provides a kind of upper body stabilising arrangement for gliding motility analog machine.The utility model aims to solve the problem that gliding motility analog machine can not allow user to experience the problem of external force gives influence and the safeguard measure deficiency of body when really sliding in the prior art.For this purpose; the utility model provides a kind of upper body stabilising arrangement for gliding motility analog machine; the gliding motility analog machine includes foot support; the foot support is used to stand for user; to support the both feet of user and to simulate slide action; the upper end of the upper body stabilising arrangement is connected to the upper body of user, and lower end is connected to the foot support, for applying centrifugal force and bearing down and safeguard protection to user.By said structure, user can be experienced such as true gliding motility (such as skiing) in general motional inertia, and real motion body-sensing, and effectively training for promotion effect are brought for user.
Description
Technical field
The utility model belongs to sports apparatus field, and it is stable specifically to provide a kind of upper body for gliding motility analog machine
Device.
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.Increasing people has been added in the troop of gliding motility.But each gliding motility is all liked motion
Person has a very high requirement, and the control ability of good balanced capacity and body is to grasp the key of gliding motility, therefore, is slided
Motion can be because easily there is the situation for falling down injury in technical merit institute limited capacity, to beginner there is higher difficulty, beginner
Body and mind all bring influence, therefore, this motion needs training for a long time to grasp the application method of sports equipment, and then
Experience the outstanding impression that gliding motility is brought.
In order that beginner is safer, grasps the skill of gliding motility more quickly and improves technical level, go out successively
Multiple analog equipment, such as ski training device, skating training aids are showed, these analog machines are not only able to ensure the peace of beginner
Entirely, the limitation in some gliding motility places is also can solve the problem that, experiences the enjoyment of gliding motility indoors.
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, not only foot needs to overcome external force sportsman, meanwhile, other positions such as waist and leg also all can be by
The influence of external force, what beginner needed to learn is action adjustment center of gravity of how making a response, and then overcomes external force to influence, therefore,
For the user, in addition to study specialty action, experience and overcome external force that different scenes are brought and centrifugal force
Influence, and use correct repetition training, accelerate to form muscle memory and become particularly important.But existing analog machine is big
To be connected with the foot of beginner mostly, due to analog machine be fixed placement on the ground, therefore other bodies of beginner
Position can not experience the influence that external force when really sliding gives body.In addition, some existing analog machines are provided with
Handrail, prevent user from falling down, but this protected mode can not identify the dangerous play of user, exist in terms of safeguard protection certain
Deficiency, meanwhile, overcome mental handicape unfavorable beginner.
Utility model content
In order to solve above mentioned problem of the prior art, i.e. gliding motility analog machine present in prior art can not allow
User experiences the problem of external force gives influence and the safeguard measure deficiency of body when really sliding.For this purpose, this reality
A kind of upper body stabilising arrangement for gliding motility analog machine is provided with new, the gliding motility analog machine includes pin
Portion's support meanss, the foot support are used to stand for user, dynamic to support the double-legged and simulation of user to slide
Make, it is characterised in that the upper end of the upper body stabilising arrangement is connected to the upper body of user, and lower end is connected to the foot support
Device, for applying centrifugal force and bearing down to user.
In the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine, the upper body is steady
Determining device includes the collar and support bar, and the collar is used for the upper body around user, the upper end of the support bar and the set
Ring is connected, and the lower end of the support bar is fixedly attached in the foot support.
It is described to slide fortune in the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine
Dynamic analog machine also includes drive device, and the drive device includes support bar driver, and the support bar driver is arranged on
In the foot support, for driving the support bar to be pivoted relative to the foot support, so as to give user
Body apply centrifugal force and safeguard protection.
In the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine, the driving dress
Putting also includes tractor, and the tractor is arranged in the foot support, for drawing the collar downwards, so as to give
User applies bearing down and skimulated motion load variations.
In the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine, the support bar
Including first support bar and second support bar, the first support bar is connected to the collar and can be relative to described second
Support bar stretches, and the second support bar is connected to the foot support.
In the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine, the support bar
Also include being arranged on biasing member between the first support bar and the second support bar, the biasing member makes described the
One support bar moves along the direction for stretching out the second support bar.
In the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine, the tractor
Including tractor body and tow, one end of the tow is connected to the tractor body, and the other end is connected to
The first support bar, make the first support bar along retraction to overcome the active force of the biasing member when needed
The direction movement of the second support bar, so as to apply bearing down to user.
In the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine, foot's branch
Support arrangement includes support frame and slides simulated assembly, and the simulated assembly that slides is arranged on support frame as described above in a flexible manner,
Simulated assembly is slided described in being connected in the lower end of the upper body stabilising arrangement.
It is described to slide mould in the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine
Intending component includes rotary simulation component and is arranged on above the rotary simulation component to slide simulation component, described to slide simulation
Component is arranged on support frame as described above by the rotary simulation component.
It is described to slide fortune in the optimal technical scheme of the above-mentioned upper body stabilising arrangement for gliding motility analog machine
Dynamic analog machine be skiing analog machine, grass skating analog machine, skidding analog machine, Sand Skiing analog machine, surfing analog machine,
One kind in skating analog machine and analog machine of striking.
It will be appreciated to those of skill in the art that in optimal technical scheme of the present utility model, upper body stabilising arrangement
For applying centrifugal force, bearing down and safeguard protection to user, therefore, user can feel when using the analog machine
In truly being slided, motional inertia to the vivid sense that body part is brought by, such as when turning to the centrifugal force that is subject to of body with
And load that centrifugal force comes to user's girdle of inferior extremity when turning to etc., present the real skiing body of an approximation for user
Test.
In addition, upper body stabilising arrangement includes the collar and support bar, the collar can make around the waist of user in protection
On the basis of user's safety, the collar can apply centrifugal force by support bar to user, turn so as to allow user to experience
To or other action when body impression, allow user to experience the feelings similar to true gliding motility from analog machine
Shape.
Brief description of the drawings
With reference to the accompanying drawings and skiing analog machine is combined to describe preferred embodiment of the present utility model, in accompanying drawing:
Fig. 1 is the structural representation of skiing analog machine of the present utility model;
Fig. 2 is the enlarged drawing of the foot support of skiing analog machine shown in Fig. 1;
Fig. 3 is the enlarged drawing of the rotary simulation component of skiing analog machine shown in Fig. 1;
Fig. 4 is the structure chart of the upper body stabilising arrangement of skiing analog machine shown in Fig. 1;
Fig. 5 is the enlarged drawing of the collar of skiing analog machine shown in Fig. 1;
Fig. 6 is the enlarged drawing of the support bar of skiing analog machine shown in Fig. 1;
Fig. 7 is the enlarged drawing of the tractor of skiing analog machine shown in Fig. 1.
Reference numerals list:
1st, foot support;2nd, upper body stabilising arrangement;11st, support frame;111st, supporting member;121st, rotary simulation structure
Part;122nd, simulation component is slided;1211st, fixed disk;1212nd, rotating disk;1213rd, connecting plate;1221st, central fixed seat;1222nd,
Side fixed seat;1223rd, the second side fixed seat;1224th, the first batter portion fixator;12241st, the first pedal;12242nd, foot
Rope band;12243rd, connecting elements;12244th, the rope band of leg;1225th, the second batter portion fixator;34th, support bar driver;
35th, tractor;21st, the collar;22nd, support bar;211st, waist support;212nd, back bracket;213rd, safety belt;214th, the first inclination detector;
215th, first pressure sensor;216th, the first tranverse connecting rod;217th, the second tranverse connecting rod;218th, the first alignment pin;219th, the second inclination angle
Detector;221st, first support bar;222nd, second support bar;223rd, the 3rd support bar;224th, the 4th support bar;225th, install
Frame;351st, tractor body;352nd, tow;23rd, second pressure sensor;24th, installing plate.
Embodiment
First, it will be apparent to a skilled person that these embodiments be used only for explaining it is of the present utility model
Technical principle, it is not intended that limitation the scope of protection of the utility model.For example, although specification and drawings are with two-ski slide snow slab
Preferably it is described, however, it will be apparent that skis can also be Halfpipe plate or other gliding members
(such as pulley, Sand Skiing plate etc.) substitutes, so that the technical solution of the utility model is applied into other glides, ability
Field technique personnel can make adjustment to it as needed, to adapt to specific application scenario.
It should be noted that in description of the present utility model, term " on ", " under ", "left", "right", " interior ", " outer ",
The direction of the instructions such as "front", "rear" or the term of position relationship are to be based on direction shown in the drawings or position relationship, and this is only
There must be specific orientation, for the ease of description, rather than instruction or hint described device or element with specific orientation structure
Make and operate, therefore it is not intended that to limitation of the present utility model.In addition, term " first ", " second " are only used for describing mesh
, and it is not intended that instruction or hint relative importance.
In addition it is also necessary to explanation, in description of the present utility model, 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;Can be joined directly together, can also be by between intermediary
Connect connected, can be the connection of two element internals.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 and Fig. 2, Fig. 1 is the structural representation of skiing analog machine of the present utility model;Fig. 2 is
The enlarged drawing of the foot support of skiing analog machine shown in Fig. 1.As shown in figure 1, the skiing analog machine bag
Include:Foot support 1, it is used to stand for user, and when in use, both feet can be placed into foot support dress by user
In putting 1, to support the both feet of user and to simulate slide action, such as the technical movements such as steering, deceleration;Upper body stabilising arrangement
2, specifically, foot support 1 includes support frame 11 and slides simulated assembly (not overall sign in figure), slides simulated assembly
It is arranged in a flexible manner on support frame 11, the lower end of upper body stabilising arrangement 2, which is connected to, slides simulated assembly.It is well known that by
In landform and the flexible nature of snow, during skis slides on snowfield, have it is slight jolt, for more preferable simulation
This case, simulated assembly will be slided and be erected in flexible manner on support frame 11.In support frame 11 and simulation can be slided
Four supporting members 111 are set between component, the both ends of the supporting member 111 can be passed through universal joint and support frame 11 respectively
Connected with simulated assembly is slided.Further, on universal joint limiting component can also be set to slide analog component phase to constrain
For the amplitude of fluctuation of support frame 11.As an example, supporting member 111 can be hydraulic cylinder, cylinder, spring etc..Certainly, this is simultaneously
It is not restricted, supporting member 111 can be other any flexible support members.
Referring next to Fig. 3 and with continued reference to Fig. 1 and Fig. 2, Fig. 3 is the rotary simulation of skiing analog machine shown in Fig. 1
The enlarged drawing of component.Sliding simulated assembly includes rotary simulation component 121 and is arranged on sliding for the top of rotary simulation component 121
Component 122 is simulated, simulation component 122 is slided and is arranged on by rotary simulation component 121 on support frame 11.Specifically, the rotation
Simulation component 121 includes the fixed disk 1211 and rotating disk 1212 that can be rotated relative to one another, and fixed disk 1211 connects with support frame 11
Connect, rotating disk 1212, which is connected to, slides simulation component 122 so that sliding simulation component 122 can be arranged on by fixed disk 1211
On support frame 11, and when rotating disk 1212 rotates, can drive slide simulation component 122 rotated relative to support frame 11.It is preferred that
Ground, the rotary simulation component 121 can be pivoting supports.Although it is understood that it is that rotation is used as using pivoting support above
What the preferred embodiment of simulation mechanism was described, it is apparent that can also substitute in other ways, such as taper roller axle
Hold.
With continued reference to Fig. 2, this is slided, and simulation component 122 includes central fixed seat 1221 (being shown in Fig. 7), the first side is fixed
The batter portion fixator 1224 of seat 1222 and first and the second side fixed seat 1223 and the second batter portion fixator 1225.Specifically
Ground, it can be fixedly installed to fixed one piece of connecting plate 1213, central fixed seat 1221 on the connecting plate 1213 on rotating disk 1212, and
And the lower end of upper body stabilising arrangement 2 is fixedly connected to the central fixed seat 1221, when rotating disk 1212 rotates, in can driving
Centre fixed seat 1221 and upper body stabilising arrangement 2 rotate together.First side fixed seat 1222 and the second side fixed seat 1223 are set respectively
Put in the upper surface of connecting plate 1213, and the line of the first side fixed seat 1222 and the second side fixed seat 1223 passes through rotating disk
1212 center of circle.The first batter portion fixator 1224 is also pivotally coupled in the upper end of the first side fixed seat 1222, this first
Batter portion fixator 1224 can pivot, slide back and forth and can drive first relative to the first side fixed seat 1222 to both sides
For side fixed seat 1222 together relative to connecting plate 1213 around vertical axis rotation, any appropriate level can be passed through by being pivoted to both sides
Rotating shaft realizes that to slide back and forth can for example be realized by the sliding groove structure shown in Fig. 2, and can be by appointing around vertical axis rotation
What appropriate vertical rotating shaft realizes that still, the utility model is not limited to this specific pivot structure and slide construction,
The first batter portion fixator 1224 is used for the left foot of regular user.Also pivotally connect in the upper end of the second side fixed seat 1223
The second batter portion fixator 1225 is connected to, the second batter portion fixator 1225 can be relative to the second side fixed seat 1223 to two
Side pivot, slide back and forth and can drive the first side fixed seat 1222 together relative to connecting plate 1213 around vertical axis from
Turn, pivot and can be realized by any appropriate horizontal rotating shaft to both sides, sliding back and forth for example can be by the chute knot shown in Fig. 2
Structure is realized, and can be realized around vertical axis rotation by any appropriate vertical rotating shaft, still, the utility model not office
It is limited to this specific pivot structure and slide construction, the second batter portion fixator 1225 and is used for the right crus of diaphragm of regular user.
Further, by taking the first batter portion fixator 1224 as an example, the first batter portion fixator 1224 can also include the first pedal
12241 and the elastic adjustable rope band 12242 for regular user foot, the rope band be arranged on the first pedal 12241,
It can be fixed so as to the user of foot's difference size by rope band.On the other hand, the rope band of leg can also be set
12244.Specifically, a fixed connecting elements 12243 on the first pedal 12241, the rope band 12244 of leg are arranged on connection structure
The upper end of part 12243, when user is placed on pin on the first pedal 12241, the rope band 12244 of leg can be adjustably
Connecting elements 12243 and the leg of user are fixed.Similarly, the second side leg fixer can also be arranged to and the first side
The same structure of leg fixer.
Referring next to Fig. 4, Fig. 4 is the structure chart of the upper body stabilising arrangement of skiing analog machine shown in Fig. 1.Such as figure
Shown in 4, the upper end of the upper body stabilising arrangement 2 is connected to the upper body of user, and lower end is connected to foot support 1, and upper body is steady
Determine device 2 to be used to apply centrifugal force and bearing down to user, therefore, user can be experienced in true skiing, and motion is used
Property to the vivid sense that body part is brought by, such as body is subject to when turning to centrifugal force, when turning to the technical movements made to
Load that user's girdle of inferior extremity comes etc., a real skiing impression is presented for user.
Referring next to Fig. 5 and with continued reference to Fig. 4, Fig. 5 is the enlarged drawing of the collar of skiing analog machine shown in Fig. 1.
Upper body stabilising arrangement 2 includes the collar 21 and support bar 22, and the collar 21 is used for the upper body around user, the upper end of support bar 22
It is connected with the collar 21, the lower end of support bar 22 is fixedly attached to foot support 1.Specifically, the collar 21 has regulation work(
Can, it can be provided the form of similar waistband or safety belt, in addition to protecting user, set the collar 21 can to simulate
Centrifugal force be applied directly to the waist of user, to cause user to experience in true skiing centrifugal action to body
Impression.Preferably, the collar 21 includes waist support 211, the back bracket 212 being fixedly connected with waist support 211 and can adjust with waist support 211
The safety belt 213 of connection, the waist support 211 are used to support human body waist, and the waist by safety belt 213 around human body, carried on the back
Support 212 is disposed vertically with waist support 211, for supporting human body back.Further, can also be set in waist support 211 and back bracket 212
The inclination detector 214 of first pressure sensor 215 and first is put, is detected by the inclination angle of first pressure sensor 215 and first
Device 214 gathers waist support 211 and the angle and pressure change of back bracket 212, and passes information to control unit, afterwards control unit
Whether the posture for judging user by the information received is in out-of-balance condition, if it is determined that disequilibrium opens peace
Full guard pattern, analog machine return to initial standing state, and the body of user can also return to the appearance initially stood therewith
State.Because the waist of user and foot have been fixed, so even user also will not because acting improper disequilibrium
Injury is fallen down, on the premise of not limiting user and making technical movements, ensure that the safety of user.
With continued reference to Fig. 4 and Fig. 5, the collar 21 is also associated with the first tranverse connecting rod 216, one end connection of the first tranverse connecting rod 216
To waist support 211, its other end is plugged into the second tranverse connecting rod 217, and the second tranverse connecting rod 217 is connected with support bar 22 and it is set
There is alignment pin, the alignment pin can pin the first tranverse connecting rod 216 and plug to the length in the second tranverse connecting rod 217.In practical application
In, user can be according to the horizontal range between the stature and custom regulation waist support 211 and support bar 22 of oneself.Further
The junction of ground, the second tranverse connecting rod 217 and support bar 22 can set the second inclination detector 219.
Referring next to Fig. 6 and with continued reference to Fig. 4, Fig. 6 is the amplification of the support bar of skiing analog machine shown in Fig. 1
Figure.As shown in fig. 6, support bar 22 can be arranged to Height Adjustable expansion link, user can according to the height of oneself with
And the height of skiing custom regulation support bar 22, so that the collar 21 is mountable to suitable position.Specifically, the support bar
22 include first support bar 221 and second support bar 222, and first support bar 221 is connected with the second tranverse connecting rod 217, this first
Strut 221 is plugged in second support bar 222, and it can be flexible relative to second support bar 222, second support bar 222
It is connected to foot support 1.Preferably, biasing member (figure is set between first support bar 221 and second support bar 222
Not shown in), the biasing member can be such that first support bar 221 is moved along the direction for stretching out second support bar 222.In Fig. 4
In the preferred embodiment shown in 6, the biasing member is provided in the spring in second support bar 222, it is apparent that this
Selection is not limitation, can also be substituted in other ways, such as cylinder, hydraulic cylinder etc..Further, can also prop up
Second alignment pin is set on strut 22, and the second alignment pin can prevent first support bar 221 upward in the presence of biasing member
Motion, can set external flange in first support bar 221, and the upper surface for stopping external flange by the second alignment pin prevents
First support bar 221 is moved upwards, so that user can adjust support bar 22 according to the height and skiing custom of oneself
Highly, and then the height of the collar 21 is have adjusted, is provided convenience for user.
With continued reference to Fig. 4 and Fig. 6, the support bar 22 also includes mounting bracket 225, the 3rd support bar 223 and the 4th support bar
224, mounting bracket 225 is fixedly connected with second support bar 222, and the both ends of the 3rd support bar 223 connect mounting bracket 225 and respectively
Four support bars 224, it is contemplated that support bar 22 can not influence user and make technical movements, therefore the 3rd support bar 223 is downward
The 4th support bar 224 is obliquely connected to, the 4th connecting rod 224 is connected with foot support 1, so as to first support bar 221
It is located at user behind with second support bar 222, the 3rd support bar 223 is between user's leg, so as to make to user
Impacted with analog machine.
Referring next to Fig. 7, Fig. 7 is the enlarged drawing of the tractor of skiing analog machine shown in Fig. 1.4th support bar
224 lower end is connected with second pressure sensor 23, and second pressure sensor 23 is used to detect the downward bearing down of human body, and this
Two pressure sensors 23 are fixedly attached on installing plate 24, and the installing plate 24 is pivotally connected to central fixed seat 1221.
With continued reference to Fig. 7, the gliding motility analog machine also includes drive device, and the drive device drives including support bar
Device 34, the support bar driver 34 are arranged on the lower section of connecting plate 1213, and it can drive support bar 22 to be filled relative to foot support
1 rotation is put, when user makes the actions such as steering, vertical sword, main control unit is by controlling support bar driver 34 to make branch
Strut 22 is rotated, and the centrifugal force itself being subject to when thus user can experience steering, user must be adjusted by waist
Balance overcomes the influence of centrifugal force, and then has been significantly increased the Consumer's Experience of skiing analog machine.
With continued reference to 7, drive device also includes tractor, and tractor is arranged in foot support 1, for leading downwards
Draw the collar 21, so as to apply bearing down to user, allow user leg to experience exercise load.Specifically, the tractor bag
Tractor body 351 and tow 352 are included, one end connection first support bar 221 of the tow 352, the other end passes through
The support bar 223 of second support bar 222 and the 3rd is connected internally to tractor body 351, when user's steering or other need
When applying the situation of bearing down, tractor body 351 can pull tow 352, when the pulling force of tractor body 351 exceedes
During the upward bias force of biasing member, first support bar 221 is pulled down, and so as to drive the collar 21 to move downward, is thus made
User can be become big by bearing down, leg and foot's load, and vivid simulation sportsman is under the situations such as steering, and body is by outer
Impression when power influences.
Finally, it will be readily appreciated by those skilled in the art that although being to combine two-ski slide snow analog machine to describe here,
But gliding motility analog machine of the present utility model both can apply to two-ski slide snow equipment, veneer can also be applied to and slided
Equipment is avenged, can also be applied to simulate other gliding motilities, such as simulation grass skating, surfing and Sand Skiing etc..
So far, combined preferred embodiment shown in the drawings describes the technical solution of the utility model, still, this
Art personnel are it is easily understood that the scope of protection of the utility model is expressly not limited to these embodiments.
On the premise of principle of the present utility model, those skilled in the art can make equivalent change to correlation technique feature
Or replace, the technical scheme after these are changed or replaced it is fallen within the scope of protection of the utility model.
Claims (10)
1. a kind of upper body stabilising arrangement for gliding motility analog machine, the gliding motility analog machine includes foot support
Device, the foot support are used to stand for user, to support the both feet of user and to simulate slide action,
Characterized in that, the upper end of the upper body stabilising arrangement is connected to the upper body of user, lower end is connected to foot's branch
Support arrangement, for applying centrifugal force and bearing down to user.
2. the upper body stabilising arrangement according to claim 1 for gliding motility analog machine, it is characterised in that on described
Body stabilising arrangement includes the collar and support bar, and the collar is used for the upper body around user, the upper end of the support bar and institute
State the collar to be connected, the lower end of the support bar is fixedly attached to the foot support.
3. the upper body stabilising arrangement according to claim 2 for gliding motility analog machine, it is characterised in that the cunning
Row motion analog machine also includes drive device, and the drive device includes support bar driver, and the support bar driver is set
Put in the foot support, for driving the support bar to be pivoted relative to the foot support, so as to be made
User applies centrifugal force and safeguard protection.
4. the upper body stabilising arrangement according to claim 3 for gliding motility analog machine, it is characterised in that the drive
Dynamic device also includes tractor, and the tractor is arranged in the foot support, for drawing the collar downwards, from
And apply bearing down to user.
5. the upper body stabilising arrangement according to claim 4 for gliding motility analog machine, it is characterised in that the branch
Strut includes first support bar and second support bar, and the first support bar is connected to the collar and can be relative to described
Second support bar is stretched, and the second support bar is connected to the foot support.
6. the upper body stabilising arrangement according to claim 5 for gliding motility analog machine, it is characterised in that the branch
Strut also includes the biasing member being arranged between the first support bar and the second support bar, and the biasing member makes institute
First support bar is stated to move along the direction for stretching out the second support bar.
7. the upper body stabilising arrangement according to claim 6 for gliding motility analog machine, it is characterised in that described to lead
Lead device includes tractor body and tow, and one end of the tow is connected to the tractor body, and the other end connects
Be connected to the first support bar, so as to overcome the active force of the biasing member when needed and make the first support bar along
The direction movement of second support bar described in retraction, so as to apply bearing down to user.
8. the upper body stabilising arrangement according to any one of claim 1 to 7 for gliding motility analog machine, its feature
It is, the foot support includes support frame and slides simulated assembly, and the simulated assembly that slides is installed in a flexible manner
On support frame as described above, the lower end of the upper body stabilising arrangement, which is connected to, described slides simulated assembly.
9. the upper body stabilising arrangement according to claim 8 for gliding motility analog machine, it is characterised in that the cunning
Row simulated assembly includes rotary simulation component and is arranged on above the rotary simulation component to slide simulation component, described to slide
Component is simulated to be arranged on support frame as described above by the rotary simulation component.
10. the upper body stabilising arrangement according to claim 9 for gliding motility analog machine, it is characterised in that described
Gliding motility analog machine is skiing analog machine, grass skating analog machine, skidding analog machine, Sand Skiing analog machine, surfing mould
Propose one kind in standby, skate analog machine and analog machine of striking.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720861817.7U CN207085256U (en) | 2017-07-14 | 2017-07-14 | Upper body stabilising arrangement for gliding motility analog machine |
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Application Number | Priority Date | Filing Date | Title |
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CN201720861817.7U CN207085256U (en) | 2017-07-14 | 2017-07-14 | Upper body stabilising arrangement for gliding motility analog machine |
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CN201720861817.7U Withdrawn - After Issue CN207085256U (en) | 2017-07-14 | 2017-07-14 | Upper body stabilising arrangement for gliding motility analog machine |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107261458A (en) * | 2017-07-14 | 2017-10-20 | 阎东 | Upper body stabilising arrangement for gliding motility analog machine |
WO2019011281A1 (en) * | 2017-07-14 | 2019-01-17 | 阎东 | Chassis device for slide motion simulating apparatus |
WO2019011282A1 (en) * | 2017-07-14 | 2019-01-17 | 阎东 | Slide motion simulating apparatus |
CN112451944A (en) * | 2020-11-16 | 2021-03-09 | 周秀杰 | Scooter |
-
2017
- 2017-07-14 CN CN201720861817.7U patent/CN207085256U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107261458A (en) * | 2017-07-14 | 2017-10-20 | 阎东 | Upper body stabilising arrangement for gliding motility analog machine |
WO2019011281A1 (en) * | 2017-07-14 | 2019-01-17 | 阎东 | Chassis device for slide motion simulating apparatus |
WO2019011282A1 (en) * | 2017-07-14 | 2019-01-17 | 阎东 | Slide motion simulating apparatus |
CN107261458B (en) * | 2017-07-14 | 2022-11-11 | 阎东 | Upper body stabilizing device for gliding movement simulation equipment |
CN112451944A (en) * | 2020-11-16 | 2021-03-09 | 周秀杰 | Scooter |
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