The present invention relates generally to a physical training machine, and more particularly to a multifunctional physical training machine, which provides plenty of exercise modes.
In modern life, people pay more attention to health and body building. Some people go to gymnasium for physical training and some people like to take exercise at home. In exercise, people will sweat to get metabolism quickly, and more particularly, it will loose weight.
But more and more people like to do exercise at home, so simply constructed physical training machines were provided in the market and they are popular to customers. They have small size to facilitate store them at home.
Most of the simply constructed physical training machines only have one exercise mode to train a specific muscle. User has to buy another type of training machine to exercise another muscle. That will cost consumer very much to buy these training machines, and most of all, user will get boring with the single mode of exercise after having done exercise on the training machine for a few time.
The primary objective of the present invention is to provide a multi-function physical training machine, which has plenty of exercise modes to train the various muscles.
The secondary objective of the present invention is to provide a multi-function physical training machine, which can be folded to store it.
According to the objectives of the invention, a multi-function physical training machine comprises a base frame having a front side and a rear side. A supporting bar is pivotally mounted on the front side of the base frame. A plurality of coupling units are respectively mounted on left and right sides of the front and rear sides of the base frame. At least a cord assembly has two elastic cords installed on said coupling units respectively and two holding devices respectively connected to said elastic cords. A T-shaped bar is pivoted on said base frame in front of the supporting bar to be turned in a predetermined range. At least a first resistance member is installed on said T-shaped bar to provide said T-shaped bar a loading when it is turned. A seat assembly has a seat base provided at an end thereof with a connecting board which is pivoted on the base frame, a pad member mounted on the other end of the seat base, and a side tube mounted on the seat base below the pad member. A training bar assembly has a first shaft and a second shaft engaged with said first shaft. Wherein said second shaft is engaged with said side tube on said seat base for said training bar assembly can be turned in a predetermined range and said second shaft is provided with a connecting shaft. At least a second resistance member is installed on said training bar assembly to provide said training bar assembly a loading when being turned.
Please refer to FIG. 1 and
The base frame 11 is composed of a first base bar and two second base bars having their midsections respectively coupled with the opposite ends of the first base bar. The base frame 11 is provided with a pivot connector 12 at the first base bar. A supporting bar 14 is provided with two first transverse bars 141 respectively outwardly extending from the opposed lateral sides of the supporting bar 14 at midsection thereof. The supporting bar 14 has an end thereof pivoted on the pivot connector 12 with a fixing member 16 to secure the supporting bar 14 at a specific angle. The frame member 11 can be a fixed unit or it can be a retractable unit. The base frame 11 is provided with eight coupling units 18 respectively at the opposite sides of the second base bars for installing the elastic cords 191 of the cord assembly 19, i.e. eight coupling units are respectively mounted on left and right sides of the front and rear sides of the base frame. Each of the coupling units 18 has a U-shaped seat member 181 disposed on the second base bar of the base frame 11 which pivots a pulley 182 at top side thereof. The coupling unit 18 can simply be a ring for the passing of the elastic cord 191. The pulleys 182 of the present embodiment are to reduce the friction when pulling the elastic cords 191.
The elastic cords 191 of the cord assembly 19 run through the coupling units 18 at the second base bars of the front side and the back side thereof respectively, please refer to
The T-shaped bar 21 is provided with two second transverse bars 22 at two sides of the upright bar respectively. The T-shaped bar 21 pivots its distal end of the upright bar on the front end of the base frame 11. Two resistance members 24 are respectively connected the second transverse bars 22 of the T-shaped bar 21 with the first transverse bars 141 of the supporting bar 14 to be turned by user as shown in FIG. 3 and FIG. 6. The resistance members 24 are rubber pieces to provide the loading when user turns the T-shaped bar 21. User can install more rubber pieces or can take out the rubber pieces to change the loading. The supporting bar 14 will stop the T-shaped bar 21 being turned backwards.
The seat assembly 31 is composed of a seat base 32 and a pad member 34, wherein the seat base 32 pivots the pad member 34 at an end thereof and is fixed with a connecting board 36 at the other end thereof. The connecting board 36 has a joint 361 at an end thereof pivoted on the base frame 11 for movement between a folded position (seeing FIG. 12), at which the seat base 32 rests on the base frame 11 and a extended position (seeing FIG. 1), at which the seat base 32 stands upright. The connecting board 36 has an opening 362 at the other side to insert a locking device 363 therein to secure the seat base 32 at the extended position. The pad member 34 can be turned relative to the seat base 32 and a locking device 37 is to detachable fix the pad member 34 with the seat base 32 to make the pad member 34 can not be turned. The seat base 32 is provided with a first side shaft 38 and a side tube 39 at under side of the pad member 34.
The training bar assembly 41 is composed of an L-shaped first shaft 42 and an L-shaped second shaft 44. The first shaft 42 is provided with a soft pad 422 at its transverse section 421 and openings 424 at its vertical section 423. The vertical section 423 of the first shaft 42 is sleeved into a vertical section 441 of the second shaft 44 such that the total length of the training bar assembly 41 can be changed. The vertical section 441 of the second shaft 44 is provided with a pin 442 to be inserted into one of the openings 424 on the first shaft 42 for securing the first shaft 42 and the second shaft 44 in a specific length. The distal end of a transverse section 443 of the second shaft 44 is pivotally engaged to the side tube 39 on the seat base 32. The transverse section 443 of the second shaft 44 is provided with a connecting bar 46 and a second side shaft 48 closing to the distal end of the connecting bar 46. A resistance member 49 (like the elements labeled 24 as described above) is connected to the first side shaft 38 of the seat base 32 and the second side shaft 48 on the second shaft 44 to provide the loading of the training bar assembly 41.
Next, it will be shown how a user does exercises on the physical training machine 10 of the present invention.
Please refer to
Please refer to
The holding devices 194 are changed to the opposite side closing to the pad member 34 as shown in FIG. 10. User can sit on the pad member 34 and hold the holding devices 194 to raise his/her arms upwards for training the arm muscle. User can raise the arms in various modes such as raise the arms over head, flex the forearms and other raise modes.
The elastic cord 191 can provide two holding devices 194 at both ends thereof as shown in FIG. 11 and FIG. 12.
Number | Date | Country | Kind |
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91209629 U | Jun 2002 | TW | national |
Number | Name | Date | Kind |
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5722917 | Olschansky et al. | Mar 1998 | A |
6152866 | Kuo | Nov 2000 | A |
6533710 | Lin et al. | Mar 2003 | B2 |
Number | Date | Country | |
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20040002412 A1 | Jan 2004 | US |