CN204932726U - Telecontrol equipment - Google Patents

Telecontrol equipment Download PDF

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Publication number
CN204932726U
CN204932726U CN201520591480.3U CN201520591480U CN204932726U CN 204932726 U CN204932726 U CN 204932726U CN 201520591480 U CN201520591480 U CN 201520591480U CN 204932726 U CN204932726 U CN 204932726U
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CN
China
Prior art keywords
pivot joint
pedal
skeleton
tube
slide
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Withdrawn - After Issue
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CN201520591480.3U
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Chinese (zh)
Inventor
黄铉富
刘翰霖
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Dyaco International Inc
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Dyaco International Inc
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Priority to CN201520591480.3U priority Critical patent/CN204932726U/en
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Publication of CN204932726U publication Critical patent/CN204932726U/en
Withdrawn - After Issue legal-status Critical Current
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Abstract

The utility model provides a kind of telecontrol equipment, and it comprises skeleton, two pedals, two swing tubes, two pedal tubes, drag devices, two interlock pipes, two cranks, two sliding tubes, and stride adjusting device.This swing tube each has two ends, wherein this skeleton of one end pivot joint, one end of the corresponding pedal tube of other end pivot joint, and the other end of this corresponding pedal tube connects corresponding pedal.This drag devices has axle center.One end of each crank connects this axle center, and the other end connects should one end of interlock pipe, and the region pivot joint of the other end of this interlock pipe and this pedal tube.Each pedal is slidably connected corresponding sliding tube, and one end of sliding tube movably connects stride adjusting device.

Description

Telecontrol equipment
Technical field
The utility model is about a kind of telecontrol equipment, particularly a kind of treadmills.
Background technology
Treadmills is a kind of sports equipment, can promote HR Heart Rate, burn calories, and promotes myocardium endurance.
In the design of tradition treadmills, user stands in be had on two pedals of predetermined resistance, and both feet force makes two pedals alternately promote, the action of step as continuously along stair up, the muscle of leg exercising and buttocks whereby.Compared to treadmill, treadmills is less for the impulsive force of leg, but must be noted that, to avoid knee injury on using.
Figure 1A and Figure 1B shows the structure of two kinds of traditional treadmills and the movement locus of its pedal.Figure 1A is the structure of the monotroded bar of a kind of dead axle, and Figure 1B is a kind of structure of dead axle double link.Pedal 20 is fixed on connecting rod 22, and one end connecting axle 21 of connecting rod 22, makes the movement locus P of pedal be outer camber, and its center is pointed to and deviated from user, and this kind of movement locus is not inconsistent ergonomics, cannot simulate actual to mark time, stride, or mountaineering.
US Patent No. 20120077645 discloses a kind of treadmills, and wherein crank (crankarm) applies pressure to swing pipe (linkingunits), and the connecting rod (pedallink) be connected with swing pipe is moved forward and backward.Connecting rod has roller (rollableanti-frictionmember) and pedal (pedal) pivot joint.When connecting rod displacement forward, drive pedal by roller, move toward oblique front upper place along the bar that climbs (ramprod).In said structure, the thrust that pedal rises is not enough, is difficult to simulate actual to mark time, stride, or mountaineering.
About the treadmills of existing known techniques, also with reference to Taiwan Patent I458519, can be entitled as " adjustable running exerciser ", and Taiwan Patent I442955, be entitled as patent application cases such as " treadmills ".
The treadmills of existing known techniques, cannot overcome the problem of " dead point (deadpoint) "." dead point " refers in linkage, when crank and connecting rod in alignment time, cannot throw crank rotate.
In addition, the treadmills of existing known techniques, cannot for different users, the size of adjustment stride.
Summary of the invention
The purpose of this utility model is the defect overcoming the existence of existing treadmills, and a kind of telecontrol equipment is provided, particularly a kind of treadmills, technical problem to be solved is in linkage, when crank and connecting rod in alignment time, can rotate by throw crank, simultaneously can for different users, the size of adjustment stride.
The utility model embodiment provides a kind of telecontrol equipment, and it comprises skeleton, two swing tubes, two pedal tubes, two pedals, drag devices, two cranks, two interlock pipes, two sliding tubes, and stride adjusting device.These two swing tubes lay respectively at the left and right sides of this skeleton, this skeleton of one end pivot joint of this swing tube each.These two pedal tubes connect this two swing tubes, the other end of the corresponding swing tube of one end pivot joint of this pedal tube each.These two pedals connect this two pedal tubes, and each pedal connects the other end of corresponding pedal tube.This drag devices is arranged at this skeleton, has axle center, provides operation resistance.These two cranks lay respectively at the both sides of this drag devices, and one end of this crank each connects this axle center.These two interlock pipes connect these two cranks and this two pedal tubes, and one end of this interlock pipe each connects the other end of corresponding crank, the other end of this interlock pipe each and the region pivot joint of corresponding pedal tube.One end of this sliding tube each and skeleton pivot joint, these two pedals are slidably connected these two sliding tubes.This stride adjusting device is arranged at this skeleton, and movably connects the other end of this sliding tube each.
An embodiment, this stride adjusting device comprises motor, screw rod, and sleeve, and this sleeve has internal thread and engages this screw rod, and this motor can drive this screw rod to rotate, and makes this sleeve along this screw rod towards moving close to or away from the direction of motor.
An embodiment, this skeleton comprises pedestal and body frame, and this pedestal is positioned at supporting surface or above the ground, this body frame is positioned at above this pedestal.
An embodiment, this body frame pivot joint of one end of this motor and this skeleton, one end of this sleeve connects cross bar, and one end of these two interlock pipes connects this cross bar.
An embodiment, this telecontrol equipment still comprises first connecting rod, two second connecting rods, and cross bar, this pedestal pivot joint of one end of this motor and this skeleton, this body frame of first end pivot joint of this first connecting rod, second this sleeve pipe of end pivot joint of this first connecting rod, these two second connecting rods are positioned at the both sides of this first connecting rod, position pivot joint between the first end of this second connecting rod each and this first connecting rod two ends, second end of this second connecting rod each and this cross bar pivot joint, the first end of this sliding tube each connects this cross bar, this pedestal of second end pivot joint skeleton of this sliding tube each.
An embodiment, this telecontrol equipment still comprises slide, slide rail, two collars, this pedestal pivot joint of one end of this motor and this skeleton, this this slide of sleeve pivot joint, this slide rail is arranged at this pedestal, and this slide is arranged on this slide rail and also can slides on this slide rail, and these two collars connect this slide and lay respectively at the left and right end of this slide, this body frame of first end pivot joint of this sliding tube each, the second end of this sliding tube each is through a corresponding collar.
An embodiment, this telecontrol equipment still comprises slide and two collars, this pedestal pivot joint of one end of this motor and this skeleton, this this slide of sleeve pivot joint, this slide is arranged on this pedestal and also can slides on this slide rail, these two collars connect this slide and lay respectively at the left and right end of this slide, this body frame of first end pivot joint of this sliding tube each, and the second end of this sliding tube each is through a corresponding collar.
An embodiment, wherein the shape of this sliding tube each is the direction in camber line, its center of circle, points to the position of user.
An embodiment, wherein the angle of these two sliding tubes and vertical direction is larger, then the stride of these two pedals is less.
An embodiment, wherein the angle of these two sliding tubes and vertical direction is less, then the stride of these two pedals is larger.
An embodiment, wherein this pedal each has inclination angle, and this pedal travel is to the angle at this inclination angle during low spot, the angle at this inclination angle when being less than this pedal travel lofty perch.
An embodiment, this telecontrol equipment still comprises two and covers wheels, and each this covers wheels and connect this pedal tube, and can move reciprocatingly on this sliding tube of correspondence.
An embodiment, wherein each this covers wheels and comprises front-wheel, fixed mechanism, and trailing wheel, this front-wheel and this trailing wheel lay respectively at the front of this sliding tube and rear and with this fixed mechanism pivot joint.
An embodiment, wherein this front-wheel and this trailing wheel have the profile of this sliding tube of groove fit, make this front-wheel and this trailing wheel near this sliding tube.
By technique scheme, utility model at least has the following advantages: in linkage, when crank and connecting rod in alignment time, can rotate by throw crank, simultaneously can for different users, the size of adjustment stride, can also simulate and actual mark time, stride, or mountaineering.
Above-mentioned explanation is only the general introduction of utility model technical scheme, in order to the technological means of utility model can be better understood, and can be implemented according to the content of description, and can become apparent to allow the above and other object of utility model, feature and advantage, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.
Accompanying drawing explanation
Figure 1A and Figure 1B shows the existing structure of known treadmills and the movement locus of its pedal.
Fig. 2 is stereogram, shows the telecontrol equipment according to the utility model first (better) embodiment.
Fig. 3 is partial perspective view, shows the telecontrol equipment according to the utility model preferred embodiment.
Fig. 4 is side view, the operation of display Fig. 2 telecontrol equipment.
Fig. 5 is stereogram, the operation of display Fig. 2 telecontrol equipment.
Fig. 6 is side view, the operation of display Fig. 2 telecontrol equipment.
Fig. 7 is side view, the operation of display Fig. 2 telecontrol equipment.
Fig. 8 is partial perspective view, shows the telecontrol equipment according to the utility model second embodiment.
Fig. 9 is side view, shows the telecontrol equipment according to the utility model second embodiment.
Figure 10 is side view, shows according to this telecontrol equipment by novel second embodiment.
Figure 11 is partial perspective view, shows according to this telecontrol equipment by novel 3rd embodiment.
Figure 12 is side view, shows the telecontrol equipment according to the utility model the 3rd embodiment.
Figure 13 is side view, shows the telecontrol equipment according to the utility model the 3rd embodiment.
[main element symbol description]
1: telecontrol equipment 2: telecontrol equipment
3: telecontrol equipment 10: skeleton
11: swing tube 12: pedal tube
13: drag devices 14: crank
15: interlock pipe 16: sliding tube
17: pedal 18: stride adjusting device
19: cover wheels 20: pedal
21: axle 22: connecting rod
23: operation interface 101: pedestal
102: body frame 103: standpipe
130: axle center 132: belt pulley
134: flywheel 181: motor
182: screw rod 183: sleeve pipe
190: front-wheel 192: trailing wheel
194: fixed mechanism 1012: axle
1013: axle 1021: first connecting rod
1022: second connecting rod 1023: cross bar
1024: axle 1026: slide rail
1027: slide 1028: the collar
L1: stride L2: stride
L3: stride L4: stride
L5: stride L6: stride
P: movement locus P1: movement locus
P2: movement locus P3: movement locus
θ 1: angle theta 2: angle
θ 3: angle theta 4: angle
θ 5: angle theta 6: angle
Detailed description of the invention
Each embodiment of this case will be described in detail in detail below, and coordinate illustratively graphic.In certain embodiments, the example shown in figure according to ratio, but in other embodiments, can not need proportionally.In certain embodiments, same or analogous component symbol can represent identical, similar, or the element of analogy and/or element, but in certain embodiments, also can represent different elements.In certain embodiments, the noun in direction is described, such as upper and lower, left and right, up, down, exceed, top, below, can to explain according to letter below, above etc., but in other embodiments, also can not to explain according to letter.In addition, in order to clear expression some element of the present utility model, may clipped element in diagram.In the description of description, in order to make reader have more complete understanding to the utility model, provide many specific detail; But the utility model under the prerequisite of clipped or whole these specific detail, still can may be implemented.
Fig. 2 is stereogram, Fig. 3 is sectional perspective enlarged drawing, display the utility model first embodiment, also be the telecontrol equipment 1 of preferred embodiment, its main element comprises skeleton 10, two swing tubes 11, two pedal tubes 12, drag devices 13, two cranks 14, two interlock pipes 15, two sliding tubes 16, two pedals 17, stride adjusting devices 18.
Referring to figs. 2 and 3, above-mentioned two swing tubes 11 and two pedal tube 12 difference positions are in the left and right sides of skeleton 10.Each swing tube 11 has first end and the second end with pedal tube 12.The first end pivot joint skeleton 10 of each swing tube 11, the first end of the corresponding pedal tube 12 of the second end pivot joint of each swing tube 11, and the second end of this corresponding pedal tube 12 connects corresponding pedal 17.At the present embodiment, skeleton 10 is including but not limited to, pedestal 101 and body frame 102.Pedestal 101 is positioned on supporting surface or ground, and body frame 102 is positioned at above pedestal 101.Illustratively unrestricted, have standpipe 103 above body frame 102, and one end of standpipe 103 connects body frame 102, the other end has operation interface 23 for user's operation or control.
Referring to figs. 2 and 3, above-mentioned two cranks 14 lay respectively at the both sides of drag devices 13.Drag devices has axle center 130, and each crank 14 and each interlock pipe 15 have first end and the second end.The first end of each crank 14 connects the first end of the corresponding interlock pipe 15 of axle center 130, second end pivot joint, and the second end of this interlock pipe 15 can with between the two-end-point of corresponding pedal tube 12 or the pivot joint of position, stage casing or connection.Above-mentioned two sliding tubes 16 respectively have first end and the second end.Wherein the first end of each sliding tube 16 movably connects stride adjusting device 18, second end and skeleton 10 pivot joint, such as, with pedestal 101 pivot joint of skeleton 10.Stride adjusting device 18 can change the angle of sliding tube 16 and vertical direction, and this will describe in detail after a while.
Referring to figs. 2 and 3, when the both feet of user stand on left and right pedal 17, drag devices 13 provides resistance to give user.The value of this resistance controls by the operation interface 23 above skeleton 10.In this preferred embodiment, drag devices 13 can be including but not limited to, belt pulley 132 and flywheel 134.The axle center 130 of belt pulley 132 can have the first end that two-way bearing (not shown) connects above-mentioned two cranks 130.The stampede operation of user, via crank 14 drive pulley 132, and belt pulley 132 can drive flywheel 134 to rotate.
Referring to figs. 2 and 3, in this preferred embodiment, telecontrol equipment 1 also comprises two and covers wheels 19, and each wheels 19 that cover comprise front-wheel 190 and trailing wheel 192 respectively, and wherein the central shaft of trailing wheel 192 connects a pedal tube 12.Front-wheel 190 and trailing wheel 192 can lay respectively at the front and back of sliding tube 16, and front-wheel 190 and trailing wheel 192 have the profile of groove fit sliding tube 16, make front-wheel 190 and trailing wheel 192 near sliding tube 16.Each wheels 19 that cover also can comprise fixed mechanism 194, for the position of fixing front-wheel 190 with trailing wheel 192.Wherein, fixed mechanism 194 can be brace, front-wheel 190 and fixed mechanism 194 pivot joint, trailing wheel 192 and pedal tube 12 pivot joint, and the size of trailing wheel 192 can be greater than front-wheel 190.By said structure, pedal 17 can be limited the camber line external form along sliding tube 16, moves at its upper end and between lower end.Fig. 4 display covers the movement locus P1 of wheels 19, and drives pedal 17 to be the movement locus P2 of arc.Wherein, when pedal 17 moves to low spot, its angle slightly leans forward or close to level; During motion lofty perch, then comparatively tilt, this meets marks time, strides, or the human body merit of mountaineering, and operator can not felt well.In addition, each this covers wheels 19 can change inclination angle with the camber line external form of sliding tube 16, when covering wheels 19 motion lofty perch, covers wheels 19 comparatively level; Moving to low spot when covering wheels 19, covering wheels 19 and comparatively tilting.Whereby, cover wheels 19 and can be close to sliding tube 16.Cover wheels 19 according to the utility model preferred embodiment, steadiness when pedal 17 moves can be promoted.When the speed of pedal 17 speeds, sliding tube 16 can not be departed from.
As shown in Figure 4, telecontrol equipment 1 is when operating, and swing tube 11 and interlock pipe 15 drive pedal tube 12 to move along reciprocating motion track P3.As shown in Figure 4, according to the telecontrol equipment of the utility model preferred embodiment, the movement locus P2 of left and right pedal 17, is respectively camber line, a part of the rough sensing in its center of circle user, such as shank or pin.The movement locus of the pedal of existing known techniques telecontrol equipment, is not inconsistent ergonomics; But the movement locus of the pedal 17 of this case telecontrol equipment 1, meets ergonomics.In addition, because crank 14 directly applies pressure to pedal tube 12, the defect of pedal toward lifting force deficiency of existing known techniques can be improved, coordinate the pedal travel track P2 of ergonomics, make with the marking time of reality, stride, or mountaineering be close.In addition, the pedal travel track P2 of this case telecontrol equipment 1 is very smooth, can promote the comfortableness of use, eliminates " pause point ".The stagnation experienced when so-called " pause point " refers to that user tramples.
Fig. 5 is stereogram, the operation of the pedal 17 of display Fig. 2 telecontrol equipment 1.As shown in Figure 5, when crank 14 and interlock pipe 15 overlap, now left and right pedal 17 is not in the position of the top and bottom, and left and right pedal 17 can continue to be biased start, avoid existing known telecontrol equipment produce the defect at " dead point ".
Fig. 6 and Fig. 7 is side view, shows the telecontrol equipment 1 according to the utility model Fig. 2 preferred embodiment.With reference to figure 2, Fig. 3, Fig. 6 and Fig. 7, one end of stride adjusting device 18 is articulated in skeleton 10, such as, be articulated in the axle 1012 (Fig. 2) of pedestal 101, and the other end of stride adjusting device 18 movably connects sliding tube 16.Such as, stride adjusting device 18 can comprise motor 181, screw rod 182, sleeve 183.Wherein motor 181 can rotate by drive screw 182, and sleeve 183 has internal thread engagement screws 182, when motor 181 drive screw 182 clockwise or be rotated counterclockwise, sleeve 183 is along screw rod 182 towards close to motor 181 or the direction displacement away from motor 181.In addition, telecontrol equipment 1 is by connection rod set, and such as, first connecting rod 1021, two second connecting rods 1022, and cross bar 1023, be movably connected with one end of sliding tube 16.Wherein, the body frame 102 of the first end pivot joint skeleton 10 of first connecting rod 1021, the second end pivot joint sleeve pipe 183 of first connecting rod 1021.Two second connecting rods 1022 are positioned at the both sides of first connecting rod 1021, the position pivot joint between the first end of each second connecting rod 1022 and first connecting rod 1021 two ends, the second end of each second connecting rod 1022 and cross bar 1023 pivot joint.The first end of each sliding tube 16 connects cross bar 1023, the pedestal 101 of the second end pivot joint skeleton 10 of each sliding tube 16.As shown in Figure 6, when motor 181 drive screw 182, sleeve 183 is moved towards the direction away from motor 181 along screw rod 182, now sliding tube 16 is θ 1 with the angle of vertical direction, the stride L1 of user under this state, that is the distance between left and right pedal 17 is maximum.As shown in Figure 7, when motor 181 drive screw 182, sleeve 183 is moved along screw rod 182 towards the direction close to motor 181, sleeve 183 is by first connecting rod 1021, second connecting rod 1022, and cross bar 1023 pulls sliding tube 16, sliding tube 16 is changed to as θ 2 with the angle of vertical direction, and wherein θ 2 is greater than θ 1.Under this state, the stride L2 of user is minimum.User controls stride adjusting device 18 by operation interface 23, to be adjusted to suitable stride; Such as, by adjusting the angle of sliding tube 16 and vertical direction between θ 1 and θ 2, suitable stride can be obtained.
This area skill personage according to above-described embodiment, can do suitable modification, change, or replaces, and these are modified, change, or replacement all belongs to category of the present utility model.Such as, in other embodiments of the utility model, the angle of sliding tube 16 and vertical direction can between 10 ° and 60 °.Such as, in other embodiments of the utility model, stride adjusting device 18 can other positions of pivot joint skeleton 10, such as body frame 102.Such as, stride adjusting device 18 can not need by connection rod set (such as first connecting rod 1021 and second connecting rod 1022), and directly connects sliding tube 16 by cross bar 1023.Such as, in other embodiments of this case, stride adjusting device 18 movably connects the other end of (directly or indirectly) sliding tube 16, that is lower end.
Fig. 8 is partial perspective view, Fig. 9 and Figure 10 is side view, shows the telecontrol equipment 2 according to the utility model second embodiment.
With reference to figure 8, telecontrol equipment 2 and the main difference of telecontrol equipment 1 are in the annexation in stride adjusting device 18 and sliding tube 16.At the present embodiment, one end of stride adjusting device 18 is articulated in skeleton 10, such as, be articulated in the axle 1024 of the body frame 102 of skeleton 10, and the other end of stride adjusting device 18 movably connects sliding tube 16.Stride adjusting device 18 can comprise aforesaid motor 181, screw rod 182, sleeve 183.In addition, stride adjusting device 18, by cross bar 1023, movably connects one end of sliding tube 16.Such as, sleeve 183 connects cross bar 1023, and the first end of each sliding tube 16 connects cross bar 1023, the pedestal 101 of the second end pivot joint skeleton 10 of each sliding tube 16.It should be noted that in another embodiment, one end of stride adjusting device 18 can be articulated in the pedestal 101 of skeleton 10, instead of is articulated in body frame 102.
As shown in Figure 9, when motor 181 drive screw 182, sleeve 183 is moved towards the direction away from motor 181 along screw rod 182, now sliding tube 16 is θ 3 with the angle of vertical direction, the stride L3 of user under this state, that is the distance between left and right pedal 17 is maximum.As shown in Figure 10, when motor 181 drive screw 182, sleeve 183 is moved along screw rod 182 towards the direction close to motor 181, and sleeve 183 pulls sliding tube 16 by cross bar 1023, sliding tube 16 is changed to as θ 4 with the angle of vertical direction, and wherein θ 4 is greater than θ 3.Under this state, the stride L4 of user is minimum.User controls stride adjusting device 18 by operation interface 23, to be adjusted to suitable stride; Such as, the angle of adjustable sliding tube 16 and vertical direction between θ 3 and θ 4, to obtain suitable stride.
Figure 11 is partial perspective view, Figure 12 and Figure 13 is side view, shows the telecontrol equipment 3 according to the utility model the 3rd embodiment.
With reference to Figure 11, telecontrol equipment 3 and the main difference of telecontrol equipment 1 are in the annexation in stride adjusting device 18 and sliding tube 16.At the present embodiment, one end of stride adjusting device 18 is articulated in skeleton 10, such as, be articulated in the axle 1013 of the pedestal 101 of skeleton 10, and the other end of stride adjusting device 18 movably connects sliding tube 16, such as, movably connects the lower end of sliding tube 16.Stride adjusting device 18 can comprise aforesaid motor 181, screw rod 182, sleeve 183.Such as, stride adjusting device 18, by slide 1027, movably connects one end of sliding tube 16.Such as, the sleeve 183 of stride adjusting device 18, can pivot joint slide 1027, and slide rail 1026 is arranged at pedestal 101, and slide 1027 is arranged at slide rail 1026 and can slides on slide rail 1026.The two ends, left and right of slide 1027 respectively connect the collar 1028, the first end pivot joint body frame 102 of each sliding tube 16, and the second end of each sliding tube 16 is through the corresponding collar 1028.Whereby, stride adjusting device 18 can control the movement of sliding tube 16 second end (lower end).
As shown in figure 12, when motor 181 drive screw 182, sleeve 183 is moved towards the direction away from motor 181 along screw rod 182, now sliding tube 16 is θ 5 with the angle of vertical direction, the stride L5 of user under this state, that is the distance between left and right pedal 17 is maximum.As shown in figure 13, when motor 181 drive screw 182, sleeve 183 is moved along screw rod 182 towards the direction close to motor 181, and sleeve 183 pulls the lower end of sliding tube 16 by slide 1027, sliding tube 16 is changed to as θ 6 with the angle of vertical direction, and wherein θ 6 is less than θ 5.Under this state, the stride L6 of user is minimum.User controls stride adjusting device 18 by operation interface 23, to be adjusted to suitable stride; Such as, the angle of adjustable sliding tube 16 and vertical direction between θ 5 and θ 6, to obtain suitable stride.
It should be noted that slide rail 1026 is omitted, and slide 1027 is directly arranged on pedestal 101 in another embodiment of the utility model, and can slide on pedestal 101.All the other details are identical with the 3rd embodiment, repeat no more.
Whereby, the stride adjusting device 18 of the utility model telecontrol equipment 1/2/3, via the position of adjustment sliding tube 16 one end, can obtain suitable stride.
The above, it is only the preferred embodiment of utility model, not any pro forma restriction is done to utility model, although utility model discloses as above with preferred embodiment, but and be not used to limit utility model, any those skilled in the art, do not departing within the scope of utility model technical scheme, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from utility model technical scheme, the technical spirit of foundation utility model is to any simple modification made for any of the above embodiments, equivalent variations and modification, all still belong in the scope of utility model technical scheme.

Claims (12)

1. a telecontrol equipment, is characterized in that comprising:
Skeleton;
Two swing tubes, lay respectively at the left and right sides of this skeleton, this skeleton of one end pivot joint of this swing tube each;
Two pedal tubes, connect this two swing tubes, the other end of the corresponding swing tube of one end pivot joint of this pedal tube each;
Two pedals, connect this two pedal tubes, this pedal each connects the other end of corresponding pedal tube;
Drag devices, is arranged at this skeleton, has axle center, provides operation resistance;
Two cranks, lay respectively at the both sides of this drag devices, and one end of this crank each connects this axle center;
Two interlock pipes, connect these two cranks and this two pedal tubes, one end of this interlock pipe each connects the other end of corresponding crank, the other end of this interlock pipe each and the region pivot joint of corresponding pedal tube;
Two sliding tubes, one end of this sliding tube each and skeleton pivot joint, these two pedals are slidably connected these two sliding tubes;
Stride adjusting device, is arranged at this skeleton, and connects the other end of this sliding tube each actively.
2. telecontrol equipment according to claim 1, it is characterized in that: wherein this stride adjusting device comprises motor, screw rod, and sleeve, this sleeve has internal thread and engages this screw rod, this motor rotates for driving this screw rod, makes this sleeve along this screw rod towards moving close to or away from the direction of motor.
3. telecontrol equipment according to claim 2, is characterized in that: wherein this skeleton comprises pedestal and body frame, and this pedestal is positioned at supporting surface or above the ground, this body frame is positioned at above this pedestal.
4. telecontrol equipment according to claim 3, is characterized in that: this body frame pivot joint of one end of this motor and this skeleton, and one end of this sleeve connects cross bar, and one end of these two interlock pipes connects this cross bar.
5. telecontrol equipment according to claim 3, it is characterized in that: still comprise first connecting rod, two second connecting rods, and cross bar, this pedestal pivot joint of one end of this motor and this skeleton, this body frame of first end pivot joint of this first connecting rod, second this sleeve of end pivot joint of this first connecting rod, these two second connecting rods are positioned at the both sides of this first connecting rod, position pivot joint between the first end of this second connecting rod each and this first connecting rod two ends, second end of this second connecting rod each and this cross bar pivot joint, the first end of this sliding tube each connects this cross bar, this pedestal of second this skeleton of end pivot joint of this sliding tube each.
6. telecontrol equipment according to claim 3, it is characterized in that: still comprise slide, slide rail, two collars, this pedestal pivot joint of one end of this motor and this skeleton, this this slide of sleeve pivot joint, this slide rail is arranged at this pedestal, and this slide is arranged on this slide rail and also can slides on this slide rail, and these two collars connect this slide and lay respectively at the left and right end of this slide, this body frame of first end pivot joint of this sliding tube each, the second end of this sliding tube each is through a corresponding collar.
7. telecontrol equipment according to claim 6, it is characterized in that: still comprise slide and two collars, this pedestal pivot joint of one end of this motor and this skeleton, this this slide of sleeve pivot joint, this slide is arranged on this pedestal and also can slides on this slide rail, these two collars connect this slide and lay respectively at the left and right end of this slide, this body frame of first end pivot joint of this sliding tube each, and the second end of this sliding tube each is through a corresponding collar.
8. telecontrol equipment according to claim 1, is characterized in that: wherein the shape of this sliding tube each is the direction in camber line, its center of circle, points to the position of user.
9. telecontrol equipment according to claim 1, is characterized in that: wherein the angle of these two sliding tubes and vertical direction is larger, then the stride of these two pedals is less.
10. telecontrol equipment according to claim 1, is characterized in that: wherein the angle of these two sliding tubes and vertical direction is less, then the stride of these two pedals is less.
11. telecontrol equipments according to claim 1, is characterized in that: wherein this pedal each has inclination angle, and this pedal travel is to the angle at this inclination angle during low spot, the angle at this inclination angle when being less than this pedal travel lofty perch.
12. telecontrol equipments according to claim 1, it is characterized in that: still comprise two and cover wheels, each this covers wheels and connects this pedal tube, and can move reciprocatingly on this sliding tube of correspondence, wherein each this covers wheels and comprises front-wheel, fixed mechanism, and trailing wheel, this front-wheel and this trailing wheel lay respectively at the front of this sliding tube and rear and with this fixed mechanism pivot joint.
CN201520591480.3U 2015-08-03 2015-08-03 Telecontrol equipment Withdrawn - After Issue CN204932726U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106390374A (en) * 2015-08-03 2017-02-15 岱宇国际股份有限公司 Motion device
CN107802986A (en) * 2016-09-08 2018-03-16 岱宇国际股份有限公司 Telecontrol equipment

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106390374A (en) * 2015-08-03 2017-02-15 岱宇国际股份有限公司 Motion device
CN106390374B (en) * 2015-08-03 2019-07-16 岱宇国际股份有限公司 Telecontrol equipment
CN107802986A (en) * 2016-09-08 2018-03-16 岱宇国际股份有限公司 Telecontrol equipment
CN107802986B (en) * 2016-09-08 2020-03-31 岱宇国际股份有限公司 Exercise device

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