TWI577419B - Lever - driven elliptical machine - Google Patents

Description

Lever-operated elliptical machine

The invention relates to a lever-driven elliptical machine, in particular to an elliptical machine which can independently control the resistance during swinging or stepping or mixed swinging and stepping, and has a simplified structure and can improve the smoothness of operation and cost.

In the field of fitness machines, the most common one is a kind of pedaling elliptical machine. Because of its simple use, the hands and feet are like running, and the pedaling action of the pedal is shaped like an elliptical trajectory. For the elliptical machine, or stepping on the elliptical fitness machine; in general, the elliptical machine, the control of its magnetic control mostly focuses on the resistance regulation of the swinging of the swinging rod, because it directly links the upper and lower pedaling resistance of the pedaling rod by the connecting rod, so that The construction is extremely complicated, and the volume of the overall elliptical machine is increased, resulting in an increase in transportation costs and a lack of space.

Another deficiency is that the resistance of the hands is different from the resistance of the feet. The movements are the same as the resistance of both hands and feet, so the exercise effect should not be obtained, and it may be due to the movement of the feet. Resistance must accommodate the resistance of the hands, and in only one mode of control, it is impossible to get the proper exercise and fitness.

In order to solve the above problems, the first magnetically controlled wheel of the first and second magnetic control groups regulates the resistance of the two pendulum rods, and the second magnetic control wheel of the second magnetic control group controls the resistance of the two treading rods. The two pedaling poles alternately step on, and respectively drive the first and second transmission rods to alternately pull the first The first and second lever swinging mechanisms enable the first and second transmission rods of the first and second lever swinging mechanisms to alternately push and pull the first and second drawbars to drive the first and second eccentric shafts to rotate, but coaxially but The first and second eccentric shafts are rotated under different positions by a first and second cranks on both sides to rotate the second magnetron wheel and obtain the resistance for regulating the two pedaling rods.

Another problem to be solved is that when the pedal is started, and the smoothing of the continuous rotation, the first and second eccentric shafts fixed by the first and second traction rods of the first and second lever swinging mechanisms are simultaneously at zero moment. In the overlapping position, a magnetic rotating base of a magnetic mechanism is fixed on the same main shaft as a second transmitting wheel, and a plurality of magnetic components can be fixed on the magnetic rotating base, and the plurality of magnetic components are When the magnetic rotating seat rotates, a second magnetic element is disposed at the zero-torque overlapping position of the first and second drawbars, and the polarities of the first and second magnetic elements are the same, so as to naturally push the eccentric shaft to make the first and second The overlapping position of the drawbar from the zero moment makes it impossible to get stuck when starting the pedal, and at the same time improve the smoothness of the rotation.

To achieve the foregoing objectives, the structure of the present invention is mainly composed of a frame, first and second swing bars, a magnetic control group, a transmission rod, a lever swinging mechanism, a magnetic mechanism, and a stepping lever; wherein the first and second swinging levers Connected to a first and second swing shafts respectively disposed on the frame, the first and second swing rod ends are pivotally connected to the front end of the pedaling rod, and a first one is respectively arranged on the first and second swing shafts. One or two fixing seats are respectively pivotally connected to one ends of the first and second connecting rods, and the other end shafts of the first and second connecting rods are disposed on the axial center of the first transmission wheel of the first magnetic control group to adjust the first The resistance of a magnetron wheel to the first and second swing rods, and the top ends of the first and second transmission rods are respectively pivotally connected to the first and second pivot joints disposed on the first and second pivot shafts, and different from The third and fourth pivoting seats are respectively fixed to the first and second pivoting seats, so that the first and second pivoting seats are respectively fixed to the first and the second pivoting seats respectively. And the different pivotal positions of the two pivots, wherein the third and fourth pivoting seats The first ends of the first and second drawbars are respectively fixed on a first and second eccentric shafts, and the axes of the first and second eccentric shafts are respectively respectively arranged on the first and second eccentric shafts. One end of the first and second cranks, the other end of the first and second cranks is coaxial with the main shaft of the second transmission wheel of the second magnetic control group, so that the first and second swinging rods are swung back and forth, the first and second are applied The first and second transmission rods of the lever swinging mechanism are alternately pushed and pulled with the first and second traction rods, so that the first and second pedaling rods are stepped up and down to drive the first and second transmission rods to push up and down to synchronize the first and second traction rods. Pushing up and down to drive the first and second eccentric shafts to rotate eccentrically with the main shaft as the axis, and relatively rotate the second transmission wheel of the second magnetic control group, so that the second magnetron adjusts the resistance of the pedaling rod; The first and second pedaling poles are alternately stepped up and down simultaneously with the first and second swinging rods to swing back and forth to form an elliptical trajectory pedaling motion, and the first and second pendulum rods are controlled by the first magnetic control group, and the first, The second pedal is controlled by the second magnetic control group to Independent regulation of resistance.

The present invention is intended to achieve the smoothness of the start and rotation of the pedal, and the magnetic spindle of the second transmission wheel of the second magnetic wheel set is provided with a magnetic rotating seat, and the magnetic rotating seat is provided with a plurality of first magnetic components. The plurality of magnetic elements fix a second magnetic element through the first and second eccentric shafts at a position where the zero moment overlaps due to rotation, and the first and second magnetic elements have the same polarity when the first magnetic element is located a position of the second magnetic element, the first magnetic element generating a repulsive action of the same pole to push the magnetic yoke to push the first and second eccentric shafts to rotate away from the overlapping position of the zero moment, and keep swinging Or the smoothness of pedaling.

1‧‧‧Frame

2a, 2b‧‧‧ first and second magnetic control groups

21a, 21b‧‧‧first and second transmission wheels

22a, 22b‧‧‧ first and second magnetic wheel

23a, 23b‧‧‧ first and second pulleys

24, 25, 26‧‧‧ first, second and third transmission belts

20‧‧‧ Spindle

3a, 3b‧‧‧first and second pendulum

31a, 31b‧‧‧first and second pendulum axes

32a, 32b‧‧‧first and second fixed seats

33a, 33b‧‧‧ first and second links

4a, 4b‧‧‧ first and second transmission rods

5a, 5b‧‧‧ first and second lever swinging mechanisms

51a, 51b‧‧‧ first and second pivots

52a, 52b‧‧‧ first and second pivoting seats

53a, 53b‧‧‧ third and fourth pivoting seats

54a, 54b‧‧‧ first and second drawbars

55a, 55b‧‧‧ first and second eccentric shafts

56a, 56b‧‧‧ first and second cranks

6a, 6b‧‧‧ first and second pedals

61a, 61b‧‧‧ first and second pedals

7‧‧‧Magnetic institutions

71‧‧‧Magnetic transposition

72‧‧‧First magnetic component

73‧‧‧Second magnetic component

Fig. 1 is a perspective view showing the right side of the elliptical machine of the present invention.

Fig. 2 is a perspective view showing the left side of the elliptical machine of the present invention.

Figure 3 is a plan view showing the right side of the elliptical machine of the present invention.

Figure 4 is a plan view showing the left side of the elliptical machine of the present invention.

Fig. 5 is a partially enlarged schematic view showing the relative position of the magnetic mechanism in the elliptical machine of the present invention.

Fig. 6 is a partially enlarged schematic view showing the connection of the lever swinging mechanism in the elliptical machine of the present invention.

Fig. 7 is a view showing the operation of the elliptical machine of the present invention which is stepped up and down.

Fig. 8 is a view showing the operation of the elliptical trajectory of the elliptical machine of the present invention.

Please refer to FIG. 1 to FIG. 8 at the same time, the present invention includes a frame 1, a second magnetic control group 2a, 2b, a first and second swing bars 3a, 3b, a first and second transmission rod 4a, 4b, a first and two lever swinging mechanisms 5a, 5b, a first and second stepping levers 6a, 6b and a magnetic mechanism 7.

A first transmission belt 24 is disposed on the first transmission wheel 21a of the first magnetron group 2a. A first pulley 23a is disposed on the axis of the first magnetron 22a. The first transmission wheel 21 is disposed to rotate the first magnetron 22a to adjust the rotation resistance of the first transmission wheel 21a; the second transmission wheel of the second magnetron 2b 21b is provided with a second transmission belt 25, and the second transmission belt 25 is further sleeved with a second pulley 23b, and a third transmission belt 26 is further coupled with the second pulley 23 and the second magnetron 22b to control the second The rotational resistance of the transmission wheel 21b.

The first magnetron 22a of the first and second magnetron groups 2a, 2b regulates the resistance of the two pendulum rods 3a, 3b, and the second magnetron wheel 22b of the second magnetron group 2b opposes the two pedal levers 6a, 6b. Adjusting the resistance, applying the first and second pedal levers 6a, 6b to alternately step on, and respectively driving the first and second transmission rods 4a, 4b to alternately pull the first and second lever swinging mechanisms 5a, 5b to make the first and second levers swing The first and second transmission rods 4a, 4b of the mechanism 5a, 5b alternately push and pull a first and second traction rods 54a, 54b to drive the first and second eccentric shafts 55a, 55b to rotate, the first and second The eccentric shafts 55a, 55b are respectively pivoted on the first and second cranks 56a, 56b to rotate the first and second eccentric shafts 55a, 55b at different positions to drive a second magnetron 22b and obtain regulation The resistance of the two pedals 6a, 6b.

Therefore, the present invention is designed in accordance with the purpose of the foregoing disclosure, wherein the first and second swinging bars 3a, 3b are respectively connected to a first two swing shafts 31a, 31b provided on the frame 1, which The first and second swing bars 3a, 3b are pivotally connected to the front ends of the first and second stepping bars 6a, 6b, and a first and second fixing seats 32a are respectively disposed on the first and second swinging shafts 31a, 31b. And 32b are respectively pivotally connected to one ends of the first and second links 33a, 33b, and the other ends of the first and second links 33a, 33b are disposed on the axis of the first transmission wheel 21a of the first magnetron group 2a. a core to adjust the resistance of the first magnetron 22a to the first and second swing rods 3a, 3b, and the top ends of the first and second transmission rods 4a, 4b are respectively pivotally connected to the first and second pivot shafts 51a. And the third and fourth pivoting seats 53a, 53b are respectively fixed on the first and second pivoting seats 52a, 52b of the 51b, and different from the first and second pivoting seats 52a, 52b. The first and second pivoting seats 52a, 52b and the third and fourth pivoting seats 53a, 53b are respectively fixed at different symmetric positions of the first and second pivot shafts 51a, 51bb, wherein the third and fourth pivot The bases 53a, 53b are respectively pivotally connected to the top ends of the first and second drawbars 54a, 54b, and the bottom ends of the first and second drawbars 54a, 54b are respectively fixed on the first and second eccentric shafts 55a, 55b, the first The axes of the two eccentric shafts 55a, 55b are respectively disposed at one ends of the first and second cranks 56a, 56b, and the other ends of the first and second cranks 56a, 56b and the second transmission of the second magnetron 2b The main shaft 20 of the wheel 21b is coaxial, and when the first and second swing levers 3a, 3b are swung back and forth, the first and second transmission rods 4a, 4b of the first and second lever swinging mechanisms 5a, 5b are applied to the first and second traction. The rods 54a, 54b are alternately pushed and pulled to make the first and second The stepping levers 6a, 6b are stepped up and down to drive the first and second transmission rods 4a, 4b to push up and down synchronously to push and pull the first and second traction rods 54a, 54b up and down to drive the first and second eccentric shafts 55a, 55b to the main shaft 20 as an axis. The eccentric rotation of the heart relatively rotates the second transmission wheel 21b of the second magnetron group 2b, so that the second magnetron wheel 22b regulates the resistance of the first and second pedaling bars 6a, 6b; the first and second pedaling The rods 6a, 6b are alternately stepped up and down while the first and second swing rods 3a, 3b are oscillated back and forth to form an elliptical trajectory pedaling motion, and the first and second swing rods 3a, 3b are controlled by the first magnetron group 2a. And the first and second stepping bars 6a, 6b are controlled by the second magnetron group 2b to provide independent regulation resistance.

The first and second stepping levers 6a, 6b are smooth when the first and second pedals 61a, 61b are stepped on, and are smoothly rotated, and are the first of the first and second lever swinging mechanisms 5a, 5b. When the first and second eccentric shafts 55a, 55b fixed by the two drawbars 54a, 54b are simultaneously at the overlapping position of the zero moment, they are fixed to a second transmission wheel 21b by a magnetic yoke 71 of a magnetic mechanism 7. On the same main shaft 20, a plurality of first magnetic elements 72 can be fixed on the magnetic rotating base 71. When the magnetic rotating base 71 rotates, the first and second drawbars are between A second magnetic element 72 is disposed at the zero-torque overlapping position, and the first and second magnetic elements 71, 72 have the same polarity to naturally push the first and second eccentric shafts 55a, 55b to make the first and second drawbars 54a, 54b are offset from the zero-torque overlapping position, so that the pedals 6a, 6b are not caught when the pedals are activated, and the smoothness of the rotation is improved.

1‧‧‧Frame

2a, 2b‧‧‧ first and second magnetic control groups

21a‧‧‧First transmission wheel

22a, 22b‧‧‧ first and second magnetic wheel

23a, 23b‧‧‧ first and second pulleys

24, 25, 26‧‧‧ first, second and third transmission belts

20‧‧‧ Spindle

3a, 3b‧‧‧first and second pendulum

31a, 31b‧‧‧first and second pendulum axes

32a‧‧‧first mount

33a‧‧‧first link

4a‧‧‧First transmission rod

5a, 5b‧‧‧ first and second lever swinging mechanisms

51a, 51b‧‧‧ first and second pivots

52a‧‧‧First pivoting seat

53a, 53b‧‧‧ third; four pivotal seats

54a‧‧‧First drawbar

54a, 54b‧‧‧ first and second ropes

55a‧‧‧First eccentric shaft

56a‧‧‧First crank

6a, 6b‧‧‧ first and second pedals

61a, 61b‧‧‧ first and second pedals

7‧‧‧Magnetic institutions

71‧‧‧Magnetic transposition

72‧‧‧First magnetic component

73‧‧‧Second magnetic component

Claims (3)

A lever transmission type elliptical machine is composed of a frame, a first and second magnetic control group, a first and second swing levers, a first and second transmission levers, a first and second lever swinging mechanism, and a first a pedaling rod and a magnetic mechanism; the structure comprises: the first and second swinging rods respectively connected to a first and second swing shafts disposed on the frame, the first and second swinging rod ends The first and second fixing seats are respectively disposed on the first and second swinging shafts to respectively pivotally connect one ends of the first and second connecting rods, respectively. The other end shaft of the two connecting rods is disposed on the axis of the first transmission wheel of the first magnetron group to adjust the resistance of the first magnetron wheel to the first and second swing rods; the first and second lever swings The mechanism is composed of a first and second transmission rods, a first and second pivot shafts, a first and second pivot joints, a third and fourth pivot joints, a first and second drawbars, and a first a second eccentric shaft, a first and a second crank and a main shaft; wherein the first and second transmission rods are respectively pivotally connected at a first and a second pivot The third and fourth pivoting seats are respectively fixed on the first and second pivoting seats, and the first and second pivoting seats are respectively fixed to the third and fourth The pivot joints are respectively fixed at different symmetric positions of the first and second pivot shafts, and the third and fourth pivot joints are respectively pivotally connected to the first and second drawbar tops, and the first and second drawbars are respectively The bottom ends are respectively fixed on the first and second eccentric shafts, and the axes of the first and second eccentric shafts are respectively disposed at one ends of the first and second cranks, and the other ends of the first and second cranks are opposite to the second The main shaft of the second transmission wheel of the magnetic control group is coaxial, so that when the first and second swing rods are swung back and forth, the first and second transmission rods are alternately pushed and pulled with the first and second traction rods to make the first and second Stepping up and down to step on the pedal to drive the first and second transmission rods to push up and down synchronously to push and pull the first and second traction rods up and down to drive the first and second eccentric shafts to rotate eccentrically with the main shaft as the axis, so as to make the second magnetic control group Second pass The rotating wheel rotates, so that a second magnetron adjusts the resistance of the first and second pedals; a magnetic mechanism is composed of a magnetic rotating seat, a first and a second magnetic component, wherein the magnetic rotating seat is fixed a second transmission wheel on the same main shaft, and a plurality of first magnetic elements can be fixed on the magnetic rotating base, and the plurality of first magnetic elements rotate between the first and second drawbars when the magnetic rotating seat rotates a second magnetic element is disposed at the zero-torque overlapping position, and the first and second magnetic elements have the same polarity, so as to naturally push the first and second eccentric shafts to make the first and second traction rods deviate from the zero-torque overlapping position. It will not get stuck when starting the pedal, and it will improve the smoothness of the rotation. The lever transmission type elliptical machine according to claim 1, wherein the first transmission wheel of the first magnetic control group is sleeved with a first transmission belt, and the first pulley is disposed at the first magnetic control wheel. The first transmission wheel is sleeved on the first pulley, and the first transmission wheel can drive the first magnetron to rotate to adjust the rotation resistance of the first transmission wheel; the second magnetron The second transmission belt of the group is sleeved with a second transmission belt, and the second transmission belt is further sleeved with a second pulley, and a third transmission belt is further coupled with the second pulley and the second magnetic control wheel to regulate the second transmission. The resistance of the wheel. The lever transmission type elliptical machine according to claim 1, wherein the first and second pedaling poles are alternately stepped up and down, and the first and second swinging rods are oscillated back and forth to form an elliptical trajectory pedaling motion, and reach the first The second pendulum rod is controlled by the first magnetic control group, and the first and second tread rods are controlled by the second magnetic control group.