Magnetic control multifunctional exercise apparatus

Abstract
The present invention relates to a magnetic control multifunctional exercise apparatus and includes a base frame, an upright rod connected to a bottom of the base frame, a seat pad, a back pad, two hollow supporting arms pivotably connected at a top of the upright rod, a resisting arm pivotably connected at a front of the base frame and a magnetic control resisting mechanism connected to the base frame. A plurality of pulleys are utilized in combination with two ropes to connect the supporting arms, the resisting arm, and the magnetic control resisting mechanism so that a user can pull the ropes of the supporting arms or push the resisting arm. A flywheel of the magnetic control resisting mechanism will unidirectionally turn to achieve the expected magnetic resistance.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to a magnetic control multifunctional exercise apparatus, and more particularly, to a device utilizing magnetic control resistance mechanism to create the resistance for achieving a better exercise effect.




2. Description of the Prior Art




First of all, referring to the attached document of U.S. Pat. No. 5,569,138, named “MULTI-PURPOSE EXERCISING APPARATUS”, this invention belongs to the same inventor of the present invention. In this invention, two supporting arms for adjusting angle are disposed at two sides of the top of a base frame. An elastic rope extends from the inside of both supporting arms and is connected with a pull ring with which the upper limb of the user pulls. Meanwhile, the inside of the base frame is provided with another rope which extends to the front end of the base frame and is fixed to a resisting arm pivoted with the base frame, thereby enabling the user to use the lower limb to push the resisting arm for achieving an exercise effect of four limbs.




Though the aforementioned prior art is exactly applicable, the adjusting mechanism in design is too complicated (see FIGS.


2


and


3


), thereby causing a great cost burden. Meanwhile, the fatigue of the elastic ropes will appear when they are used for a certain period. Moreover, no adjusting possibility of the elastic value is available. Thus, the exercising resistance can't meet the needs of the user for a long time.




SUMMARY OF THE INVENTION




It is a primary object of the present invention to remove the above-mentioned drawbacks and to provide a magnetic control multifunctional exercise apparatus in which the elastic rope is replaced with the magnetic control resisting mechanism whose exercising resistance is adjustable by an adjusting device. Moreover, a simplified supporting arm adjusting locating member is utilized to simplify the whole structure and to considerably reduce the manufacturing costs.











BRIEF DESCRIPTION OF THE DRAWINGS




The accomplishment of this and other objects of the invention will become apparent from the following description and its accompanying drawings of which:





FIG. 1

is a perspective view of the present invention;





FIG. 2

is a side view of

FIG. 1

;





FIG. 3

is an perspective exploded view of a magnetic control resisting mechanism of the present invention;





FIG. 4

is a front view of the present invention;





FIG. 5

is a schematic drawing of the action of the present invention; and





FIG. 6

is another schematic drawing of the action of the present invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




First of all, referring to

FIGS. 1 and 2

, a base frame


10


of the present invention includes a seat pad


11


, an back pad


12


, two hollow supporting arms


13


pivotably connected at the top thereof, a resisting arm


14


pivotably connected at the front end thereof and a magnetic control resisting mechanism


20


at the bottom thereof. A plurality of pulleys are utilized in combination with two ropes


30


,


40


to connect with the supporting arms


13


and the resisting arm


14


so that the user can pull the ropes


30


of the supporting arms


13


or push the resisting arm


14


. By means of the interconnection between the ropes


30


,


40


, a flywheel


21


of the magnetic control resisting mechanism


20


will unidirectionally turn to achieve the expected magnetic resistance.




The first rope


30


extends from one of the supporting arm


13


into a upright rod


15


of the base frame


10


while the upright rod


15


is provided with an up and down movable pulley block


31


. Thereafter, the first rope


30


extends through an upper pulley


32


of the pulley block


31


and exits from another supporting arm


13


. One end of the second rope


40


extends around a pulley


22


for many times and then goes upwards to enter into the upright rod


15


of the base frame


10


. After the second rope


40


extends through a lower pulley


33


of the pulley block


31


, it extends from the lower side of the base frame


10


in the direction of the resisting arm


14


at the front end of the base frame


10


. After it extends around a limit pulley


16


in the resisting arm


14


, the other end of the second rope


40


is fixed at a certain position of the base frame


10


.




As shown in

FIG. 3

, the magnetic control resisting mechanism


20


includes a flywheel


21


, a pulley


22


, a spring band


23


, an outer cover


24


and several screws


25


. The magnetic control resisting mechanism


20


is pivotably connected to a cross rod


17


of the base frame


10


by means of a shaft


26


and two bearings


27


. The spring band


23


includes a projecting piece


231


to insert into a slot


221


of the pulley


22


. Accordingly, when the pulley


22


rotates in a preset direction because the second rope


40


is pulled, the spring band


23


will be in a compressed state. After the external force disappears, the pulley


22


rotates in the reverse direction by means of the action of the spring band


23


. Meanwhile, the second rope


40


restores itself. Besides, the flywheel


21


is inserted on the shaft


26


by means of a unidirectional bearing


211


. When the pulley


22


rotates due to the pull force of the second rope


40


, the flywheel


21


will be brought into a unidirectional rotation. When the pulley


22


rotates in the reverse direction because of the restoring force of the spring band


23


, the flywheel


21


won't be influenced.




In addition, the flywheel


21


includes a magnet set


28


which is kept away from the flywheel


21


and the both don't contact with each other. In addition, a spring


281


is provided at the rear end of the magnet set


28


while a cable


282


and an adjusting device


29


are disposed at the other end of the magnet set


28


. The clearance between the magnet set


28


and the flywheel


21


can be effectively adjusted by the extension part


29


and the cable


282


so that the exercising resistance of the flywheel


21


can be controlled.




As illustrated in

FIG. 4

, the adjacent side of both supporting arms


13


are fitted with teeth


18


. A synchronic displacement is created by means of adjusting a locating knob


19


to get different exercising positions (see FIGS.


5


and


6


).




The arrangement of the ropes


30


,


40


is dependent upon several guide pulleys or limit pulley


16


for controlling the direction thereof and for preventing the ropes


30


,


40


and the adjacent components from interference. These belong to the prior art and are not the features of the present invention so that further descriptions thereof are not given hereinafter.




Many changes and modifications in the above-described embodiment of the invention can, of course, be carried out without departing from the scope thereof. Accordingly, to promote the progress in science and the useful arts, the invention is disclosed and is intended to be limited only by the scope of the appended claim.



Claims
  • 1. A magnetic control multi-functional exercise apparatus comprising:a) a base frame having a base frame front, a base frame bottom and a cross rod; b) an upright rod having an upright rod top and an upright rod bottom, the upright rod bottom being connected to the base frame bottom; c) first and second hollow support arms pivotally connected to opposite sides of the upright rod top; d) a resisting arm pivotally connected to the base frame front; e) a back pad connected to the upright rod between the upright rod top and bottom; f) a seat pad connected to the base frame between the upright rod and the resisting arm; g) a magnetic control resisting mechanism having a shaft, a flywheel rotatably adjoined to the shaft by a unidirectional bearing, a pulley rotatably connected to the shaft including a spring band that compresses as the pulley rotates from a first position and applies a force to return the pulley to the first position, the magnetic control resisting mechanism rotatably connected by the shaft to the cross rod; h) a magnetic set adjacent to, but spaced from, the flywheel, the magnetic set including an adjusting device whereby a distance between the magnetic set and the flywheel is manually adjustable; and, i) an operating device having a plurality of pulleys and a plurality of ropes to operably connect the hollow support arms and the resisting arm to the magnetic control resisting mechanism.
US Referenced Citations (3)
Number Name Date Kind
5569138 Wang et al. Oct 1996 A
5711749 Miller Jan 1998 A
6027429 Daniels Feb 2000 A