Upper body strengthening system

An upper body strengthening system features a generally U-shaped planar base having a vertical frame perpendicularly located in a base middle section. A seat is perpendicularly and adjustably located on a vertical frame middle along with a cushioned back rest. The system features a first arm having a first arm first end pivotally located on a vertical frame first side and a second arm having a second arm first end pivotally located on a vertical frame second side. A first palm plate is located offset from a first arm inside surface and a second palm plate is located offset from the second arm inside surface. A plurality of weight components is located close to a vertical frame bottom. The plurality of weight components is stackably located on a cable assembly (pulley system) that traverses a weight component rack and is connected to the first arm, and the second arm.

FIELD OF THE INVENTION

to of The present invention relates to stationary exercise equipment for humans employing cables and a series of weighted components.

BACKGROUND OF THE INVENTION

A weight machine is a piece of equipment used for weight training using gravity as a primary source of resistance. It uses a combination of cables, pulleys, levers, wheels, and inclined planes to convey that resistance to the person using the machine. The present invention features an upper body strengthening system for decompressing the upper body muscles in a single motion for straightening the spine, strengthening the core and building posture,

SUMMARY OF THE INVENTION

The present invention features an upper body strengthening system for decompressing the upper body muscles in a single motion for straightening the spine, strengthening the core and building posture. In some embodiments, the system comprises a generally U-shaped planar base having a vertical frame perpendicularly located in a base middle section. In some embodiments, a seat is perpendicularly and adjustably located on a vertical frame middle along with a cushioned back rest. In some embodiments, the system comprises a first arm having a first arm first end pivotally located on a vertical frame first side and a second arm having a second arm first end pivotally located on a vertical frame second side. In some embodiments, a first palm plate is located adjacent to a first arm inside surface and a second palm plate is located adjacent to the second arm inside surface. In some embodiments, a plurality of weight components is located on a weight component rack. In some embodiments, the plurality of weight components is stackably connected to a cable assembly that traverses the weight component rack and is further connected to the first arm, and the second arm.

In some embodiments, in a first position, an outermost tip of the first palm plate spherical component faces an outermost tip of the second palm plate spherical component and the first arm inside surface is vertical and parallel with the second arm inside surface. In some embodiments, in a second position, the first arm inside surface is angularly located away from the second arm inside surface. In some embodiments, an upper body strengthening system is adapted to decompress the upper body muscles in a single motion for straightening the spine, strengthening the core and building posture.

DESCRIPTION OF PREFERRED EMBODIMENTS

Following is a list of elements corresponding to a particular element referred to herein:

100Upper body strengthening system

111Base front edge

112First side base rear edge

113Second side base rear edge

114Base middle section

115Base top surface

121Vertical frame bottom

122Vertical frame first side

123Vertical frame second side

124Vertical frame top

125Vertical frame middle

131Cushioned back rest

140Angled first arm

141First arm first end

142First arm terminating second end

143First arm inside surface

145Angled second arm

146Second arm first end

147Second arm terminating second end

148Second arm inside surface

152Palm plate base

153Spherical component outermost tip

170Weight component rack

181Cable assembly first end

182Cable assembly first side second end

183Cable assembly second side second end

Referring now toFIG. 1-8, the present invention features an upper body strengthening system (100) for decompressing the upper body muscles in a single motion for straightening the spine, strengthening the core and building posture. In some embodiments, the system (100) comprises a generally U-shaped planar base (110) having a base front edge (111), a first side base rear edge (112), a second side base rear edge (113), a base middle section (114) located between the base front edge (111) and the base rear edges (112,113), and a base top surface (115).

In some embodiments, the system (100) comprises a vertical frame (120) having a vertical frame bottom (121) perpendicularly located with respect to the base top surface (115) in a base middle section (114). In some embodiments, the vertical frame (120) comprises a vertical frame first side (122), a vertical frame second side (123), and a vertical frame top (124), In some embodiments, a seat (130) is perpendicularly and adjustably located on a vertical frame middle (125) between the vertical frame top (124) and the vertical frame bottom (121). In some embodiments, a cushioned back rest (131) is linearly located on the vertical frame middle (125). in some embodiments, the vertical frame (120) comprises a support.

In some embodiments, the system (100) comprises an angled first arm (140) having a first arm first end (141) pivotally located on a vertical frame first side (122). In some embodiments, the first arm (140) comprises an adjustable length. In some embodiments, the angled first are (140) comprises an angle of 10 degrees. In some embodiments, the angled first arm (140) comprises an angle of 20 degrees. In some embodiments, the angled first arm (140) comprises an angle of 30 degrees. In some embodiments, the angled first arm (140) comprises an angle of 40 degrees. In some embodiments, the angled first arm (140) comprises an angle of 50 degrees, In some embodiments, the angled first arm (140) comprises an angle of 60 degrees. In some embodiments, the angled first arm (140) comprises an angle of 70 degrees. in some embodiments, the angled first arm (140) comprises an angle of 80 degrees. In some embodiments, the angled first arm (140) comprises an angle of 90 degrees.

In some embodiments, the system (100) comprises an angled second arm (145) having a second arm first end (146) pivotally located on a vertical frame second side (123). In some embodiments, the second arm (145) comprises an adjustable length. In some embodiments, the angled second arm (145) comprises an angle of 10 degrees. In some embodiments, the angled second arm (145) comprises an angle of 20 degrees. In some embodiments, the angled second arm (145) comprises an angle of 30 degrees. In some embodiments, the angled second arm (145) comprises an angle of 40 degrees. In some embodiments, the angled second arm (145) comprises an angle of 50 degrees. In some embodiments, the angled second arm (145) comprises an angle of 60 degrees. In some embodiments, the angled second arm (145) comprises an angle of 70 degrees. In some embodiments, the angled second arm (145) comprises an angle of 80 degrees. In some embodiments, the angled second arm (145) comprises an angle of 90 degrees.

In some embodiments, the first arm (140) and the second arm (145) pivot in a coronal plane (190) with respect to the base front edge (111). In some embodiments, the coronal plane (190) is perpendicular to the base top surface (115). In some embodiments, the coronal plane (190) is parallel with the base front edge (111), the first side base rear edge (112), and the second side base rear edge (113).

In some embodiments, the system (100) comprises a palm plate (150) having a spherical component (151) tangentially located on a palm plate base (152) having a shape of an elliptical hemisphere. In some embodiments, a first palm plate (150) is located offset from a first arm inside surface (143) close to a first arm terminating second end (142) and a second palm plate (150) is located offset from the second arm inside surface (148) close to a second arm terminating second end (147), In some embodiments, a first palm plate (150) is located on a first arm inside surface (143) close to a first arm terminating second end (142) and a second palm plate (150) is located on the second arm inside surface (148) close to a second arm terminating second end (147). In some embodiments, the spherical component (151) is removable and replaceable by cylinder bars or flat palm plates both for pushing outward motion. In some embodiments, the spherical component (151) comprises divots. In some embodiments, the spherical component (151) comprises a covering located thereon. In some embodiments, the spherical component (151) comprises a rubber covering (154) located thereon. In some embodiments, the spherical component (151) is squeezeable. In some embodiments, the spherical component (151) is compressible. In some embodiments, the spherical component (151) is rigid. In some embodiments, hardware is used to affix the palm plate to the first arm (140) and the second arm (145). In some embodiments, the hardware includes one or more of the following: bolts, screws, washers, nuts, brackets, and plates.

In some embodiments, the system (100) comprises a plurality of weight components (160) located on a weight component rack (170). In some embodiments, the weight component rack (170) is located close to and parallel with the vertical frame (120). In some embodiments, the plurality of weight components (160) is stackably (and adjustably) located on a cable assembly first end (181). In some embodiments, a cable assembly (180) traverses the weight component rack (170). In some embodiments, the cable assembly first side second end (182) is located on the first arm (140). In some embodiments, the cable assembly second side second end (183) is located on the second arm (145).

In some embodiments, in a first position, a spherical component outermost tip (153) of the first palm plate faces a spherical component outermost tip (153) of the second palm plate and the first arm inside surface (143) is vertical and parallel with the second arm inside surface (148). In some embodiments, in a second position, a user disposes the first arm inside surface (143) away from the second arm inside surface (148), In some embodiments, the plurality of weight components (160) is vertically displaced.

In some embodiments, an upper body strengthening system (100) is adapted to decompress the upper body muscles in a single motion for straightening the spine, strengthening the core and building posture.

In some embodiments, the first arm first end (141) and the second arm first and (146) are pivotally located close to the vertical frame top (124). For example,FIGS. 1-2.

In some embodiments, the first arm first end (141) and the second arm first end (146) are pivotally located close to the vertical frame bottom (121). For example,FIGS. 4-8. In some embodiments, the system (100) is configurable where the first arm first end (141) and the second arm first end (146) can be alternately moved between a position close to the vertical frame top (124), then moved to a position close to the vertical frame bottom (121) as a variant for exercising. In some embodiments, a pair of foot rest (200) is disposed on a base top surface (115) as shown inFIG. 7.

Although there has been shown and described the preferred embodiment of the present invention, it will be readily apparent to those skilled in the art that modifications may be made thereto which do not exceed the scope of the appended claims. Therefore, the scope of the invention is only to be limited by the following claims. Reference numbers recited in the claims are exemplary and for ease of review by the patent office only, and are not limiting in any way.