CN107596672A - A kind of dynamic structure and slide plate - Google Patents
A kind of dynamic structure and slide plate Download PDFInfo
- Publication number
- CN107596672A CN107596672A CN201710891518.2A CN201710891518A CN107596672A CN 107596672 A CN107596672 A CN 107596672A CN 201710891518 A CN201710891518 A CN 201710891518A CN 107596672 A CN107596672 A CN 107596672A
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- China
- Prior art keywords
- pulley
- bearing member
- row
- pulley row
- dynamic structure
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Classifications
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
- A63C17/00—Roller skates; Skate-boards
- A63C17/01—Skateboards
- A63C17/014—Wheel arrangements
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
- A63C17/00—Roller skates; Skate-boards
- A63C17/0073—Roller skates; Skate-boards with offset wheel, i.e. wheel contact point to surface offset from other associated wheel
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
- A63C17/00—Roller skates; Skate-boards
- A63C17/01—Skateboards
- A63C17/011—Skateboards with steering mechanisms
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
- A63C17/00—Roller skates; Skate-boards
- A63C17/12—Roller skates; Skate-boards with driving mechanisms
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- Toys (AREA)
- Transmission Devices (AREA)
Abstract
The present invention discloses a kind of dynamic structure.The dynamic structure includes bearing member and actively two pulleys at left and right sides of the bearing member are arranged respectively, moving direction of described two pulley rows along the bearing member is set in toed-out type, and each pulley row includes synchronization-moving at least two pulley;When in use, the position force of the pulley row is corresponded in the bearing member, so that the bearing member promotes corresponding pulley row to abut ground and moved from the Inside To Outside of the bearing member, and then the active force by described in face of pulley row drives the bearing member movement.The beneficial effects of the invention are as follows:The dynamic structure has an advantages of simple structure and simple, and if applied to toy products such as the scooter and slide plate of ground or ice face and water surface slide plates, can improve the interest of toy.Invention additionally discloses a kind of slide plate.
Description
Technical field
The present invention relates to a kind of dynamic structure and slide plate.
Background technology
At present, the toy product such as scooter, slide plate typically by foot slide or driven by power, although can obtain compared with
Good power effect, but interesting deficiency, it is difficult to meet that consumer, particularly children interest higher and higher to toy will
Ask.
The content of the invention
It is existing middle it is an object of the invention to solve the problems, such as, there is provided a kind of dynamic structure and slide plate.
To reach above-mentioned purpose, the present invention adopts the following technical scheme that, a kind of dynamic structure includes:Bearing member, provided with branch
Support at least one return pulley of the bearing member;And actively at least two pulleys at left and right sides of the bearing member are arranged respectively,
At least two pulleys row is set along the moving direction of the bearing member in toed-out type respectively;When in use, held described
Power part corresponds to the position force of pulley row so that the bearing member promote corresponding pulley row abut ground and from
The Inside To Outside movement of the bearing member, and then the active force by described in face of pulley row drives the return pulley band
The dynamic bearing member movement.
Preferably, the bearing member is respectively arranged on the left side and the right side articulated section;Each pulley row include fixture with
It is installed at least two pulleys of the fixture, at least two pulley is along arranged in a straight line, and synchronizing moving, moreover, institute
The rotating direction for stating at least two pulleys is identical with the bearing of trend of pulley row;The fixture point of each pulley row
Do not connected by the articulated section and bearing member pivot joint, when the position force that the pulley row is corresponded in the bearing member
When, the position run-off the straight of the bearing member stress or deformation is produced along force direction, so as to extrude and cause corresponding institute
State pulley row contact ground and moved around pivot points from the Inside To Outside of the bearing member.
Preferably, in addition to it is fixed at least two locating parts of the bearing member or the fixture, each limit
Part corresponding one articulated section in position is set, and for limiting corresponding pulley row around the articulated section from the load
The moving range of the Inside To Outside of part so that the open bevel of the pulley row and the bearing member bottom surface is between 90-180 °.
A kind of slide plate includes:Skateboard body, pulley, the bottom that the skateboard body is located to pulley;And set respectively
At least two pulleys row at left and right sides of the skateboard body, between the skateboard body and at least two pulley row
Attachment structure is any dynamic structure as described above.
A kind of slide plate includes:Skateboard body, pulley, the pulley are located at the bottom of the skateboard body;And it is articulated in institute
At least one pulley row of bearing member side is stated, the attachment structure between the skateboard body and at least one pulley row is
Dynamic structure as described above.
Compared to prior art, technical scheme provided by the invention has the advantages that:
1st, in the dynamic structure, described two pulley rows set along the moving direction of the bearing member in toed-out type
Put, alternately exerted a force in the left side of the bearing member and right side so that the bearing member promotes corresponding described two pulleys
Row alternately abuts ground and moved from the Inside To Outside of the bearing member, and then drives the return pulley to drive the bearing member
It is mobile, it is simple in construction so as to which the two pulleys row set by toed-out type drives the bearing member, and if be applied to slide
The toy products such as wooden handcart, slide plate, water surface slide plate, the interest of toy can be improved;
2nd, the left and right sides of described two pulley rows respectively with the bearing member is pivotally connected so that described when in the bearing member
Left side or right side when exerting a force, the left side or right side of the bearing member produce deformation or the bearing member to the left along force direction
Side or right side tilt, so as to extrude and cause corresponding pulley row contact ground and around pivot points from the bearing member
Inside To Outside movement, it is simple in construction, it is easy to accomplish.
Brief description of the drawings
Accompanying drawing described herein is used for providing a further understanding of the present invention, forms the part of the present invention, this hair
Bright schematic description and description is used to explain the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the structural representation for the dynamic structure that the embodiment of the present invention one provides;
Fig. 2 is the bottom surface structure schematic diagram of dynamic structure shown in Fig. 1;
Fig. 3 is the mechanical analysis schematic diagram of dynamic structure shown in Fig. 1;
Fig. 4 is the structural representation for the dynamic structure that the embodiment of the present invention two provides.
Fig. 5 is the bottom surface structure schematic diagram of dynamic structure shown in Fig. 4;
Fig. 6 is the structural representation for the dynamic structure that the embodiment of the present invention three provides;
Fig. 7 is the structural representation for the dynamic structure that the embodiment of the present invention four provides;
Fig. 8 is the structural representation for the dynamic structure that the embodiment of the present invention five provides;
Fig. 9 is the structural representation for the dynamic structure that the embodiment of the present invention six provides;
Figure 10 is a kind of structural representation of embodiment of the skateboard body of slide plate provided by the invention;
Figure 11 is the structural representation of the another embodiment of the skateboard body of slide plate provided by the invention;
Figure 12 is the structural representation for the dynamic structure that the embodiment of the present invention seven provides;
Figure 13 is the structural representation for the dynamic structure that the embodiment of the present invention eight provides.
Embodiment
In order that technical problems, technical solutions and advantages to be solved are clearer, clear, tie below
Drawings and examples are closed, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used
To explain the present invention, it is not intended to limit the present invention.
Embodiment one
Referring to Fig. 1, the dynamic structure that embodiment one provides includes:Bearing member 10, respectively with the bearing member 10 or so
At least two pulleys row 20 of both sides pivot joint and at least two locating parts 30 for being fixed on the bearing member 10.
The bearing member 10 is provided with least one return pulley for supporting the bearing member 10, and for carrying user or thing
Product.Selectively, the bearing member 10 can be a force bearing plate with random geometry, can also be by least two
Force bearing plate with random geometry is combined, and the present invention is not limited this.
The quantity of the return pulley can be one, two or at least two, and the present invention is not limited this.
If it should be appreciated that be provided only with a return pulley, can be set in the interposition of the bearing member 10 described in
Return pulley;If being provided only with two return pulleys, can be set respectively in the center section of the front-end and back-end of the bearing member 10
There is a return pulley;If setting at least two return pulleys, selection installation site can be carried out according to actual conditions.
Moreover, the quantity of the pulley row 20 can also be selected according to actual conditions, as long as meeting to use or designing
Need, the present invention is not limited this.
Next, being provided with two return pulleys with the bottom of bearing member 10, enter exemplified by arranging 20 provided with two pulleys
Row description, wherein, the return pulley includes front-wheel 11 and trailing wheel 12.
Specifically, the left and right sides of the bearing member 10 can be respectively equipped with articulated section 101, and the articulated section 101 is used for
With the pivot joint of pulley row 20.
In the present embodiment, when the left side to the bearing member 10 or right side exert a force, and the bearing member 10 can make it that
To the left or right side tilts.
Described two pulley rows 20 are set along the moving direction of the bearing member 10 in toed-out type, and each pulley
Row 20 includes fixture 21 and is installed at least one pulley 22 of the fixture 21, and at least one pulley 22 is along straight line
Arrangement, and synchronizing moving.The rotating direction of at least one pulley 22 is identical with the bearing of trend of pulley row 20.Should
Understand, the quantity of pulley 22 in each pulley row 20 can be selected according to actual conditions, can select for one, two
Individual or at least two, the present invention is not limited this.External splayed configuration is needed to explain herein:So-called splayed configuration is institute
The moving direction for stating the bearing of trend and the bearing member of pulley row is arranged in a crossed manner;The toed-out type refers to:The pulley row
Angle between the moving direction is acute angle, between 0 to 90 degree.
Wherein, the fixture 21 of each pulley row 20 passes through the articulated section 101 and the pivot of bearing member 10 respectively
Connect in succession.
When in use, in the position force of the corresponding pulley row 20 of the bearing member 10 so that the bearing member 10 pushes away
Dynamic corresponding pulley row 20 abuts ground and moved from the Inside To Outside of the bearing member 10, and then is faced by ground
The active force of the pulley row 20 drives the front-wheel 11 and the trailing wheel 12 to drive the bearing member to move.
For example, between the bearing member 10 and pulley row 20, applied when in the left side of the bearing member 10 or right side
During power, the bearing member 10 is to the left or right side tilts, so as to extrude and cause corresponding pulley row 20 around pivot joint position
Put the Inside To Outside movement from the bearing member 10.
If in the left side of the bearing member 10 during force, the left side of the bearing member 10 along force direction run-off the straight,
So as to extrude and cause the contact ground and outside from the inner side of the bearing member 10 around pivot points of pulley row 20 in left side
Move side;
Change force direction, on the right side of the bearing member 10 during force, the right side of the bearing member 10 is along force direction
Inclination is produced, so as to extrude and cause the contact ground of pulley row 20 on right side and around pivot points from the bearing member 10
Inside To Outside moves.
In addition, it is desirable to explain, in order to realize that the pulley row 20 can be from the Inside To Outside of the bearing member 10
It is mobile, it will be appreciated that the position of the pulley row 20 should be always positioned at the outside of pivot points.
It should be noted that the contact ground of described two pulleys row 20 and around pivot points from the inner side of the bearing member 10
Move laterally, so as to drive the principle that the bearing member 10 moves forward as follows:
Described two pulley rows 20 are set along the moving direction of the bearing member 10 in toed-out type, so when the pulley
Row 20 moves from the Inside To Outside of the bearing member 10, and the frictional force on the pulley row 20 and ground can produce holds with described
The parallel component of the moving direction of power part 10 is so as to driving the bearing member 10 to move forward.
By taking Fig. 2 as an example, the pulley row 20 is set with the frictional force on ground as F, because people is right by the bearing member 10
The force direction of the pulley row 20 is perpendicular to the bearing of trend of pulley row 20, then frictional force F direction is perpendicular to described
The bearing of trend of pulley row 20;The moving direction of the bearing member 10 is set as A1, then the pulley row 20 and the friction on ground
It is F1 that power, which can produce the component parallel with the moving direction of the bearing member 10,.
If the angle of the pulley row 20 and moving direction A1 is set as α, according to mechanical analysis, it is known that:
F1=F × sin α, 0<α<90°.
The locating part 30 can be limiting plate, limited post or limited block, and the present invention is not limited this.Each limit
A part 30 corresponding articulated section 101 in position is set, and for limiting corresponding pulley row 20 around the articulated section 101
From the moving range of the Inside To Outside of the bearing member 10.
Specifically, when pulley row 20 is around Inside To Outside movement of the articulated section 101 from the bearing member 10,
If the pulley row 20 is moved to suitable position, the fixture 21 of the pulley row 20 abuts the locating part 30, from
And limit the moving range of the pulley row 20.
The present embodiment is not limited to, the locating part 30 can also be fixed on the fixed mount 21 of the pulley row 20.If institute
State the fixed mount 21 that locating part 30 is fixed on the pulley row 20, then it is described when the pulley row 20 is moved to suitable position
Locating part 30 on fixture 21 abuts the bearing member 10, so as to limit the moving range of the pulley row 20 so that described
The open bevel of pulley row 20 and the bottom surface of the bearing member 10 is between 90-180 °.
Selectively, as shown in figure 3, the dynamic structure can also be included located at the centre position of fixture 21 extremely
Few support pulley 40.When pulley row 20 moves simultaneously around the pivot points from the Inside To Outside of the bearing member 10
When abutting the locating part 30, the support pulley 40 abuts the pulley row 20 corresponding to ground and support phase, and the branch
Support rotating direction of the rotating direction parallel to the return pulley 11 of pulley 40.It should be appreciated that when the support pulley 40 and ground
When contacting and rolling forward, pulley row 20 may exit off ground, can also be contacted with ground but the friction between ground
Power is zero.
Moreover, the support pulley 40 can be slided to set and is connected with the fixture 21.Specifically, the support pulley 40 can
To be slided on the surface of fixture 21 along towards the direction of bearing member 10, so as to realize the position for adjusting the support pulley 40
Put, to adapt to the needs of different users.
It should be appreciated that in the dynamic structure that embodiment one provides, the pulley row 20 only provides drive as power part
Power, the front-wheel 11 and trailing wheel 12 of the bearing member 10 support the bearing member 10 to move forward.
Embodiment two
Refer to Fig. 4 and Fig. 5, the dynamic structure that embodiment two provides include bearing member 210, respectively with the bearing member
Two pulleys that 210 left and right sides are slided arrange 220 and are fixed at least two locating parts 230 of the bearing member 210.
The bearing member 210 is provided with least one return pulley for supporting the bearing member 210, and for carrying user or thing
Product.Selectively, the bearing member 210 can be a force bearing plate with random geometry, can also be by least two
The individual force bearing plate with random geometry is combined, and the present invention is not limited this.
The return pulley can be provided with one, two or at least two pulleys, and the present invention is not limited this.
If it should be appreciated that be provided only with a return pulley, can in the left and right sides of the front end of bearing member 210 and
Rear end is respectively arranged on the left side and the right side the pulley row 220;, can be in the bearing member if being provided only with two return pulleys
The center section of 210 front-end and back-end is respectively equipped with a return pulley;, can be with if setting at least two pulleys
Selection installation site is carried out according to actual conditions.
Next, two return pulleys are provided with the bottom of bearing member 210, exemplified by two pulley rows 220
It is described, wherein, the return pulley includes front-wheel 211 and trailing wheel 212.
The left side and right side of the bottom of bearing member 210 are respectively equipped with arc track 201, each arc track 201
Bearing of trend with corresponding pulley row 220 is vertically arranged, and each pulley row 220 and an arc
The inlay card of track 201 connects, so that pulley row 220 moves along the corresponding arc track 201.
Be not limited to the present embodiment, in other alternate embodiments, each arc track 201 can also with it is described
The moving direction of bearing member 210 is vertically arranged, and the present invention is not limited this.
When in the position force of the corresponding pulley row 220 of the bearing member 210, the position of the stress of bearing member 210
Put run-off the straight so that each contact ground of pulley row 220 and along the corresponding arc track 201 from the load
The Inside To Outside movement of part 210.
For example, when being exerted a force in the left side of the bearing member 210 or right side, the bearing member 10 is to the left or right side tilts,
So that Inside To Outside of each pulley row 220 along the corresponding arc track 201 from the bearing member 210 moves
It is dynamic.
It should be appreciated that in order to form the arc track 201, the bottom surface of the bearing member 210 can be arc-shaped curved surface, institute
State arc track 201 and form the arc-shaped curved surface;Or the bearing member 210 can also be the corresponding arc track 201
Basal surface position is arranged to arc-shaped curved surface, and other positions are plane;Or, the bottom surface of the bearing member 210 is planar structure again,
The bottom surface sets arc groove to form the arc track 201.The generation type present invention for being placed in the arc track 201 is right
This is not limited, as long as setting the arc track 201 in the bottom surface of the bearing member 210, belongs to the invention structure of the present invention
The protection domain of think of.
Each pulley row 220 includes fixture 221 and at least two pulleys 222 located at the fixture 221.Can
Selectively, at least two pulley 222 is along arranged in a straight line, and synchronizing moving, and the rotation side of at least two pulley 222
The bearing of trend of pulley row 220 is identical described in Xiang Junyu.
Specifically, the fixture 221 of each pulley row 220 is additionally provided with the cunning that the corresponding arc track 201 is set
Dynamic portion 223, the sliding part 223 can be sliding block or pulley, and the present invention is not limited this.
In assembling, the fixture 221 is by the sliding part 223 and the clamping of arc track 201, so as to realize
The pulley row 220 moves along the Inside To Outside of the corresponding arc track 201 from the bearing member 210.
When in the left side of the bearing member 210 or right side force, the bearing member 210 is to the left or right side tilts, and makes
Each contact ground of pulley row 220 and along the corresponding arc track 201 out of described bearing member 210 it is lateral
Move in outside.
The mechanical analysis that the pulley row 220 moves from the Inside To Outside of the bearing member 210 is placed in, refers to implementation
Description in example one, will not be described here.
The locating part 230 can be limiting plate, limited post or limited block, and the present invention is not limited this.It is each described
The corresponding arc track 201 of locating part 230 is set, and for limiting corresponding pulley row 220 around the arc
Moving range of the shape track 201 from the Inside To Outside of the bearing member 210 so that the pulley row 220 and the bearing member
The open bevel of 210 bottom surfaces is between 90-180 °.
Specifically, when Inside To Outside of the pulley row 220 along the arc track 201 from the bearing member 210 moves
When dynamic, if pulley row 220 is moved to suitable position, the fixture 221 of the pulley row 220 abuts described spacing
Part 230, so as to limit the moving range of the pulley row 220.
The present embodiment is not limited to, the locating part 230 can also be fixed on the fixed mount 221 of the pulley row 220.If
The locating part 230 can also be fixed on the fixed mount 221 of the pulley row 220, then the pulley row 220 is moved to suitable
During position, the locating part 230 on the fixture 221 abuts the bearing member 210, so as to limit the shifting of the pulley row 220
Dynamic scope.
Further, at least one support that the dynamic structure is also included located at the centre position of fixture 221 is slided
Wheel 240.When the sliding part 223 of pulley row 220 slides along the arc track 201 and abuts the locating part 230, institute
State support pulley 240 and abut the pulley row 220 corresponding to ground and support phase, and the rotating direction of the support pulley 240
Parallel to the rotating direction of the return pulley.It should be appreciated that when the support pulley 240 contacts with ground and rolls forward, institute
State pulley row 220 and may exit off ground, can also be contacted with ground but the frictional force between ground is zero.
Moreover, the support pulley 240 can be slided to set and is connected with the fixture 21.Specifically, the support pulley 40
It can be slided on the surface of fixture 221 along towards the direction of bearing member 10, so as to adjust the support pulley 240
Position, to adapt to the needs of different users.
It should be appreciated that in the dynamic structure that embodiment two provides, the pulley row 220 only provides drive as power part
Power, the front-wheel 211 and trailing wheel 212 of the bearing member 210 support the bearing member 210 to move forward.
Moreover, being not limited to embodiment one and embodiment two, the pulley row connects with the activity at left and right sides of the bearing member
Connect, be not limited to be pivotally connected and be slidably connected, can also be hinged and wait other suitable movable connection methods, the present invention is not limited this
It is fixed.
It should be appreciated that in the dynamic structure that embodiment one and embodiment two provide, if being provided only with a bottom
Wheel, then it can arrange 220 in the pulley that is respectively arranged on the left side and the right side of the left and right sides of the front end of bearing member 210 and rear end.
In this way, in the dynamic structure that embodiment one and embodiment two provide, not only can be on the left side of the bearing member or the right side
Side applies active force, can also be exerted a force in the front portion of the bearing member or rear portion, to realize the advance effect of the dynamic structure.
Embodiment three
Referring to Fig. 6, a kind of dynamic structure that embodiment three provides includes:Bearing member 310 and skates 320;The load
For part 310 for that can be provided with front-wheel 311 and trailing wheel 312 in the bearing member of ice face movement, and in bottom surface, the skates 320 are movable respectively
Ground is located at the left and right sides of bearing member 310.Moving direction of described two skates 320 along the bearing member 310 is in toed-out
Type is set.
Selectively, the bottom of bearing member 310 can be provided with skates or pulley, and this is not limited by the present invention.
When in use, in the position force of the corresponding pulley row 320 of the bearing member 310 so that the bearing member 310
The corresponding skates 320 are promoted to abut ice face and moved from the Inside To Outside of the bearing member 310, and then by described
Ice face drives the bearing member 310 to be moved in ice face the active force of the skates 320.
It should be noted that embodiment three provide dynamic structure in the attachment structure of skates 320 and the bearing member 310 with
The dynamic structure middle pulley row 20 that embodiment one provides is identical with the attachment structure of the bearing member 10, does not do herein superfluous
State.
Example IV
Referring to Fig. 7, the dynamic structure that example IV provides includes:Bearing member 410 and skates 420;The bearing member 410
For the bearing member that can be moved in ice face, and front-wheel 411 and trailing wheel 412 are provided with bottom surface, the skates 420 are actively located at respectively
The left and right sides of bearing member 410.Moving direction of described two skates 420 along the bearing member 410 is set in toed-out type.
Selectively, the bottom of bearing member 410 can be provided with skates or pulley, and this is not limited by the present invention.
When in use, in the position force of the corresponding skates 420 of the bearing member 410 so that the bearing member 410 pushes away
The dynamic corresponding skates 420 abut ice face and moved from the Inside To Outside of the bearing member 410, and then pass through the ice
Active force in face of the skates 420 drives the bearing member 410 to be moved in ice face.
It should be noted that example IV provide dynamic structure in the attachment structure of skates 420 and the bearing member 410 with
The dynamic structure middle pulley row 220 that embodiment two provides is identical with the attachment structure of the bearing member 210, does not do herein superfluous
State.
Embodiment five
Referring to Fig. 8, the dynamic structure that embodiment five provides includes:Bearing member 510 and blade 520;The bearing member 510
For the bearing member of the water surface can be suspended in, and front-wheel 511 and trailing wheel 512 are provided with bottom surface, the blade 520 is actively located at respectively
The left and right sides of bearing member 510.Moving direction of described two blades 520 along the bearing member 510 is set in toed-out type.
Selectively, the bearing member 510 can be formed by timber or metal material processing, have the work(for being suspended in the water surface
Energy.
When in use, in the position force of the corresponding blade 520 of the bearing member 510 so that the bearing member 510 pushes away
Move the corresponding blade 520 to stir in water and move from the Inside To Outside of the bearing member 510, and then pass through water pair
The active force of the blade 520 drives the bearing member 510 in water surface movable.
It should be noted that embodiment five provide dynamic structure in the attachment structure of blade 520 and the bearing member 510 with
The dynamic structure middle pulley row 20 that embodiment one provides is identical with the attachment structure of the bearing member 10, does not do herein superfluous
State.
Embodiment six
Referring to Fig. 9, the dynamic structure that embodiment six provides includes:Bearing member 610 and blade 620;The bearing member 610
For that can be suspended in the bearing member of the water surface, the blade 620 is respectively actively located at the left and right sides of bearing member 610.Described two
Moving direction of the individual blade 620 along the bearing member 610 is set in toed-out type.
Selectively, the bearing member 610 can be formed by timber or metal material processing, have the work(for being suspended in the water surface
Energy.
When in use, in the position force of the corresponding blade 620 of the bearing member 610 so that the bearing member 610 pushes away
Move the corresponding blade 620 to stir in water and move from the Inside To Outside of the bearing member 610, and then pass through water pair
The active force of the blade 620 drives the bearing member 610 in water surface movable.
It should be noted that embodiment six provide dynamic structure in the attachment structure of blade 620 and the bearing member 610 with
The dynamic structure middle pulley row 220 that embodiment two provides is identical with the attachment structure of the bearing member 210, does not do herein superfluous
State.
Please in conjunction with refering to Fig. 1, Fig. 2, Fig. 4 and Fig. 5, a kind of slide plate includes skateboard body, located at the skateboard body bottom
The pulley in portion and at least two pulleys row being respectively arranged at left and right sides of the skateboard body.The skateboard body and it is described extremely
Attachment structure between few pulley row is the dynamic structure as described in embodiment one or embodiment two.
Please in conjunction with refering to Figure 10 and Figure 11, the weight-bearing surface of the skateboard body can be arcuate structure, so as to ensure to make
When user uses the slide plate, avoid, because rolling to boundary slip, improving the experience effect that the slide plate uses.And
And the radian of the arcuate structure can need to be selected according to actual design, the present invention is not limited this.
Selectively, brake block (not shown) can also be set in the pulley position of the slide plate, when the slide plate forward
Or when tilting backwards, the brake block abuts and the pulley that rubs, so as to brake the slide plate.
It should be noted that the attachment structure between the skateboard body and at least two pulley row is such as embodiment
One or embodiment two described in dynamic structure.
Embodiment seven
Figure 12 is referred to, the dynamic structure that embodiment seven provides and the dynamic structure that embodiment one provides are essentially identical, main
It is otherwise same to be:The side of the bearing member 710 is provided with least one pulley row 720, at least one difference of pulley row 720
Set along the moving direction of the bearing member 710 in toed-out type.
Embodiment eight
Figure 13 is referred to, the dynamic structure that embodiment eight provides and the dynamic structure that embodiment two provides are essentially identical, main
It is otherwise same to be:The side of the bearing member 810 is provided with least one pulley row 820, at least one difference of pulley row 820
Set along the moving direction of the bearing member 810 in toed-out type.
Please include skateboard body, the cunning located at the skateboard body bottom in conjunction with refering to Figure 12 and Figure 13, a kind of slide plate
Wheel and at least one pulley row located at the skateboard body side.The skateboard body and at least one pulley arrange it
Between attachment structure be the dynamic structure as described in embodiment seven or embodiment eight.
Please in conjunction with refering to Figure 10 and Figure 11, the weight-bearing surface of the skateboard body can be arcuate structure, so as to ensure to make
When user uses the slide plate, avoid, because rolling to boundary slip, improving the experience effect that the slide plate uses.And
And the radian of the arcuate structure can need to be selected according to actual design, the present invention is not limited this.
Selectively, brake block (not shown) can also be set in the pulley position of the slide plate, when the slide plate forward
Or when tilting backwards, the brake block abuts and the pulley that rubs, so as to brake the slide plate.
The preferred embodiments of the present invention have shown and described in described above, as previously described, it should be understood that the present invention is not office
Be limited to form disclosed herein, be not to be taken as the exclusion to other embodiment, and available for various other combinations, modification and
Environment, and can be changed in the scope of the invention is set forth herein by the technology or knowledge of above-mentioned teaching or association area
It is dynamic., then all should be appended by the present invention and the change and change that those skilled in the art are carried out do not depart from the spirit and scope of the present invention
In scope of the claims.
Claims (7)
- A kind of 1. dynamic structure, it is characterised in that including:Bearing member, provided with the support at least one return pulley of bearing member;Actively at least two pulleys row at left and right sides of the bearing member, at least two pulley arrange edge respectively respectively The moving direction of the bearing member is set in toed-out type;When in use, the position force of the pulley row is corresponded in the bearing member so that the bearing member promotes corresponding The pulley row abuts ground and moved from the Inside To Outside of the bearing member, and then by described is arranged in face of the pulley Active force drive the return pulley to drive the bearing member movement.
- A kind of 2. dynamic structure as claimed in claim 1, it is characterised in that:Each pulley row includes fixture and installing In at least one pulley of the fixture, at least one pulley is along arranged in a straight line, and synchronizing moving, moreover,The rotating direction of at least one pulley is identical with the bearing of trend of pulley row;The fixture of each pulley row is pivotally connected with the bearing member respectively to be connected;When corresponding to the position force of the pulley row in the bearing member, the position run-off the straight of the bearing member stress or edge Force direction produces deformation, so as to extrude and cause corresponding pulley row to contact ground and be held around pivot points from described The Inside To Outside movement of power part.
- A kind of 3. dynamic structure as claimed in claim 2, it is characterised in that:Also include being fixed on the bearing member or described solid Determine at least two locating parts of part, each corresponding articulated section of the locating part is set, and corresponding for limiting Moving range of the pulley row around Inside To Outside of the pivot points from the bearing member so that the pulley row holds with described The open bevel of power part bottom surface is between 90-180 °.
- A kind of 4. dynamic structure as claimed in claim 3, it is characterised in that:Also include located at the fixture centre position At least one support pulley, each support pulley are slidedly arranged on the fixture, so as on the fixture surface along court Slided to the bearing member direction, and the rotating direction of each support pulley is parallel to the rotating direction of the return pulley;When pulley row moves around pivot points and abuts the locating part, the support pulley abuts ground and support phase pair The pulley row answered.
- A kind of 5. dynamic structure, it is characterised in that including:Bearing member, provided with the support at least one return pulley of bearing member;At least one pulley row of the bearing member side is articulated in, at least one pulley row is respectively along the bearing member Moving direction is set in toed-out type;When in use, the position force of the pulley row is corresponded in the bearing member so that the bearing member promotes corresponding The pulley row abuts ground and moved from the Inside To Outside of the bearing member, and then by described is arranged in face of the pulley Active force drive the return pulley to drive the bearing member movement.
- A kind of 6. slide plate, it is characterised in that including:Skateboard body,Pulley, the pulley are located at the bottom of the skateboard body;And actively at least two pulleys at left and right sides of the skateboard body are arranged respectively,Attachment structure between the skateboard body and at least two pulley row is the power as described in claim 1-4 is any Structure.
- A kind of 7. slide plate, it is characterised in that including:Skateboard body,Pulley, the pulley are located at the bottom of the skateboard body;And at least one pulley row of the bearing member side is articulated in,Attachment structure between the skateboard body and at least one pulley row is dynamic structure as claimed in claim 5.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN201710459934.5A CN107080936A (en) | 2017-06-17 | 2017-06-17 | A kind of dynamic structure and center of gravity slide plate |
CN2017104599345 | 2017-06-17 |
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CN107596672A true CN107596672A (en) | 2018-01-19 |
CN107596672B CN107596672B (en) | 2023-07-11 |
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CN201710459934.5A Pending CN107080936A (en) | 2017-06-17 | 2017-06-17 | A kind of dynamic structure and center of gravity slide plate |
CN201710891518.2A Active CN107596672B (en) | 2017-06-17 | 2017-09-27 | Power structure and slide |
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CN201710459934.5A Pending CN107080936A (en) | 2017-06-17 | 2017-06-17 | A kind of dynamic structure and center of gravity slide plate |
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CN107715468A (en) * | 2017-11-14 | 2018-02-23 | 林龙辉 | A kind of motion |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5566956A (en) * | 1995-05-30 | 1996-10-22 | Wang; Di | In-line skateboard |
CN201840864U (en) * | 2010-08-13 | 2011-05-25 | 陈枝祥 | Wheel carrier structure of in-line skate |
JP2017064017A (en) * | 2015-09-30 | 2017-04-06 | 謙二 高木 | skateboard |
CN207545788U (en) * | 2017-06-17 | 2018-06-29 | 林龙辉 | A kind of dynamic structure and slide plate |
-
2017
- 2017-06-17 CN CN201710459934.5A patent/CN107080936A/en active Pending
- 2017-09-27 CN CN201710891518.2A patent/CN107596672B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5566956A (en) * | 1995-05-30 | 1996-10-22 | Wang; Di | In-line skateboard |
CN201840864U (en) * | 2010-08-13 | 2011-05-25 | 陈枝祥 | Wheel carrier structure of in-line skate |
JP2017064017A (en) * | 2015-09-30 | 2017-04-06 | 謙二 高木 | skateboard |
CN207545788U (en) * | 2017-06-17 | 2018-06-29 | 林龙辉 | A kind of dynamic structure and slide plate |
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CN107080936A (en) | 2017-08-22 |
CN107596672B (en) | 2023-07-11 |
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