Movable Barefoot Massage Grabbing Bar Rack

Abstract

A moveable grabbing bar rack for use in barefoot massage treatments, the present invention provides a moveable grabbing bar rack for use in barefoot massage treatments utilizing foot pressure. The movable grabbing bar rack is height position adjustable and collapsible for ease to be packed in a portable bag. The grabbing bar rack includes five independent components: first and second substantial triangular shaped bases, a pair of independent upright beams, a substantial rectangular shaped grabbing bar assembly, which includes a pair of parallel round-shaped beams working as a pair of grabbing bars, users only manually engaging the grabbing bars for body balance, and sometimes prostrate upon the upper grabbing bar with their abdomen. This rack is able to be moving forward and backward freely when in the performance of massage, because it is light weighted.

Claims

1. A moveable barefoot massage grabbing bar rack for use in massage treatment, said moveable barefoot massage grabbing bar rack comprising five independent components and eight sets of screw-nut securements, comprising: a first side substantially triangular shaped base including: a horizontal floor beam, having two halves, said a horizontal floor beam having a pair of ends and a midpoint; a vertical upright beam, said vertical upright beam having an attachment section at an upper portion, and disposed perpendicularly endwise at the floor beam midpoint; a pair of strut members angularly disposed connecting the upright beam to the floor beam, each of said pair of strut members diagonally disposed endwise at the midpoint of each half floor beam; a second side substantially triangular shaped base identical to the first side substantial triangular shaped base, said second side substantially triangular shaped base including: a horizontal floor beam, having two halves, said a horizontal floor beam having a pair of ends and a midpoint; a vertical upright beam, said upright beam having an attachment section at an upper portion, and disposed perpendicularly endwise at the floor beam midpoint; a pair of strut members, said pair of strut members angularly disposed connecting the upright beam to the floor beam, each of said pair of strut members diagonally disposed endwise at the midpoint of each half floor beam; a pair of independent vertical upright beams, connected to respective vertical upright beams of the first and second substantially triangular shaped bases, said pair of independent vertical upright beams having two attachment sections at each upper and lower portions; wherein, the lower portion of the independent vertical upright beam having four round-shaped holes spaced apart vertically comprising a pair of holes each being two anchor points, connected with the attachment section of the upright beam of the substantially triangular shaped base, by a square-shaped-tube telescope structure; wherein the assembly of the independent vertical upright beam and the substantial triangular shaped base being a pair of side stand assemblies, and its height is selectable at two anchor point positions; wherein the upper portion of the independent vertical upright beam having four round-shaped holes spaced apart vertically and each pair of odd and even number holes being two anchor points, connected with the attachment section of the pair of upright strut members of the substantial rectangular shaped grabbing bar assembly, by a square-shaped-tube-telescope structure; wherein the assembly of the first and second side stand assemblies and the grabbing bar assembly being the entire grabbing bar rack, and a height of the grabbing bar assembly being determined by the side stand assemblies and is selectable according to two anchor point positions; wherein the upper portion and lower portion of the pair of the independent vertical upright beams comprise four square-shaped-tube-telescope structures in one plane perpendicular to floor beams with the same orientation to guarantee that the grabbing bar assembly is upright and perpendicular to the two floor beams, that are parallel to each other, as well as enabling this rack to collapse without a tool; a grabbing bar assembly, said grabbing bar assembly having a pair of parallel bars spaced apart and connected to each of a pair of vertical strut members, said pair of vertical strut members including attachment sections mounted with the attachment sections of the upper portion of each of the pair of independent vertical upright beams of each of the first and second stand assemblies; wherein the eight sets of screw-nut securements each have one metal screw with shank, one metal screw nut, one flat washer and one spring washer located at an outside of the square-shaped-tube-telescope structures, and the eight sets of screw-nut securements have one copper tube-set located at an end of the metal screws, and disposed through a round hole in a wall of an outer square-shaped-tube-telescope structure to transfer pressure from a knob of the metal screw with shank to an outside surface of the independent vertical upright beams, enabling a friction force created between an inside surface of the outer square-shaped tubes and an outside surface of the independent vertical upright beams; wherein the grabbing bar assembly is configurable at a desired height secured between each of the first and second side stand assemblies and a user can manually engage the grabbing bar or prostrate on the upper grabbing bar with the user's abdomen to effect a barefoot massage upon a patient lying thereon, the grabbing bar assembly comprises a piece of round-shaped cushion in a middle area of a first upper transverse grabbing bar connected between the side stand assemblies in order to support the user's abdomen comfortably when a user applies bodyweight to the upper grabbing bar.

2. The moveable barefoot massage grabbing bar rack of claim 1, wherein the grabbing bar assembly further comprising a second upper transverse grabbing bar and is connected between the side stand assemblies wherein together with the first upper transverse grabbing bar constitute a pair of moveable transverse grabbing bars, and are interconnected with a pair of square-shaped tube strut members, for supporting the user's bodyweight.

3. The moveable barefoot massage grabbing bar rack of claim 1, wherein connections between the substantially triangular shaped bases and the independent vertical upright beams, and also the connections between the independent vertical upright beams and the pair of attachment sections of the grabbing bar assembly comprise four square-shaped-tube-telescope structures, said four square-shaped-tube-telescope structures having orientations in a plane perpendicular to the floor beams, so the grabbing bar assembly is upright and perpendicular to the floor beams, and the pair of floor beams is parallel to each other.

4. The moveable barefoot massage grabbing bar rack of claim 1, wherein either the upper portion or the lower portion of the independent upright beam have four round-shaped holes spaced apart vertically, that constitute pairs of holes each pair forming two anchor points, to interconnect with corresponding outer square-shaped tubes which have two round holes which are spaced apart double the distance of a hole distance on the independent vertical upright beam, to provide three selectable height positions of the rack.

5. The moveable barefoot massage grabbing bar rack of claim 1, wherein each of the eight metal screw-nut securements has a special copper tube-set to transfer pressure from the knob of the metal screw with shank to the an outer surface of the independent vertical upright beams to create a friction force between an inside surface of the outer square-shaped tubes and the outside surface of the independent vertical upright beams, tightened by the set of screw and nuts, and washers, as well as said copper tube-set in a hollow of the outer square-shaped tubes.

6. The moveable barefoot massage grabbing bar rack of claim 1, wherein the pair independent vertical upright beams is interchangeable other pairs of independent vertical upright beams with different lengths.

7. The moveable barefoot massage grabbing bar rack of claim 1, wherein the piece of round-shaped cushion is made of softer rubber material and is installed in a middle one-third portion of the upper grabbing bar to support the user's abdomen comfortably.

8. A moveable barefoot massage grabbing bar rack for use in massage treatment, said moveable barefoot massage grabbing bar rack comprising five independent components and eight sets of screw-nut securements, comprising: a first side substantially triangular shaped base including: a horizontal floor beam, having two halves, said a horizontal floor beam having a pair of ends and a midpoint; a vertical upright beam, said vertical upright beam having an attachment section at an upper portion, and disposed perpendicularly endwise at the floor beam midpoint; a pair of strut members angularly disposed connecting the upright beam to the floor beam, each of said pair of strut members diagonally disposed endwise at the midpoint of each half floor beam; a second side substantially triangular shaped base identical to the first side substantial triangular shaped base, said second side substantially triangular shaped base including: a horizontal floor beam, having two halves, said a horizontal floor beam having a pair of ends and a midpoint; a vertical upright beam, said upright beam having an attachment section at an upper portion, and disposed perpendicularly endwise at the floor beam midpoint; a pair of strut members, said pair of strut members angularly disposed connecting the upright beam to the floor beam, each of said pair of strut members diagonally disposed endwise at the midpoint of each half floor beam; a pair of independent vertical upright beams, connected to respective vertical upright beams of the first and second substantially triangular shaped bases, said pair of independent vertical upright beams having two attachment sections at each upper and lower portions; wherein, the lower portion of the independent vertical upright beam having four round-shaped holes spaced apart vertically comprising a pair of holes each being two anchor points, connected with the attachment section of the upright beam of the substantially triangular shaped base, by a square-shaped-tube telescope structure; wherein the assembly of the independent vertical upright beam and the substantial triangular shaped base being a pair of side stand assemblies, and its height is selectable at two anchor point positions; wherein the upper portion of the independent vertical upright beam having four round-shaped holes spaced apart vertically and each pair of odd and even number holes being two anchor points, connected with the attachment section of the pair of upright strut members of the substantial rectangular shaped grabbing bar assembly, by a square-shaped-tube-telescope structure; wherein the assembly of the first and second side stand assemblies and the grabbing bar assembly being the entire grabbing bar rack, and a height of the grabbing bar assembly being determined by the side stand assemblies and is selectable according to two anchor point positions; wherein the upper portion and lower portion of the pair of the independent vertical upright beams comprise four square-shaped-tube-telescope structures in one plane perpendicular to floor beams with the same orientation to guarantee that the grabbing bar assembly is upright and perpendicular to the two floor beams, that are parallel to each other, as well as enabling this rack to collapse without a tool; a grabbing bar assembly, said grabbing bar assembly having a pair of parallel bars spaced apart and connected to each of a pair of vertical strut members, said pair of vertical strut members including attachment sections mounted with the attachment sections of the upper portion of each of the pair of independent vertical upright beams of each of the first and second stand assemblies; wherein the eight sets of screw-nut securements each have one metal screw with shank, one metal screw nut, one flat washer and one spring washer located at an outside of the square-shaped-tube-telescope structures, and the eight sets of screw-nut securements have one copper tube-set located at an end of the metal screws, and disposed through a round hole in a wall of an outer square-shaped-tube-telescope structure to transfer pressure from a knob of the metal screw with shank to an outside surface of the independent vertical upright beams, enabling a friction force created between an inside surface of the outer square-shaped tubes and an outside surface of the independent vertical upright beams; wherein the grabbing bar assembly is configurable at a desired height secured between each of the first and second side stand assemblies and a user can manually engage the grabbing bar or prostrate on the upper grabbing bar with the user's abdomen to effect a barefoot massage upon a patient lying thereon.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

Figures

[0020] FIG. 1 is an isometric view of preferred embodiment of the present invention.

[0021] FIG. 2 is a side view of an example embodiment of a first side substantial triangular shaped base.

[0022] FIG. 3 is a transverse cross-section view of an example embodiment of a substantial triangular shaped base, taken along the line A-A in FIG. 2.

[0023] FIG. 4 is a transverse cross-section view of an example embodiment of a first side substantial triangular shaped base, taken along the line B-B in FIG. 2.

[0024] FIG. 5 is a front view of an example embodiment of a first side independent vertical upright beam.

[0025] FIG. 6 is a transverse cross-section view of an example embodiment of a first side independent vertical upright beam, taken along the line C-C in FIG. 5.

[0026] FIG. 7 is a side view of an example embodiment of a first side stand assembly

[0027] FIG. 8 is a front view of an example embodiment of a first side stand assembly.

[0028] FIG. 9 is a transverse cross-section view of an example embodiment of the square-shaped-tube-telescope structure of a first side stand assembly, taken along the line D-D in FIG. 7.

[0029] FIG. 10 is a front view of an example embodiment of substantial rectangular shaped grabbing bar assembly.

[0030] FIG. 11 is a transverse cross-section view of an example embodiment of one of a pair of parallel round-shaped bars, taken along the line E-E in FIG. 10.

[0031] FIG. 12 is a transverse cross-section view of example embodiment of one of a pair of vertical square-shaped strut members, taken along the line F-F in FIG. 10

[0032] FIG. 13 is an isometric view of example embodiment of a set of screw-nuts securement.

[0033] FIG. 14 is an exploded view of reference number 10 in FIG. 1.

[0034] FIG. 15 is a partial side view of the first side stand assembly at G point section of FIG. 1, and referring to FIG. 14. and FIG. 9

[0035] FIG. 16 is a transverse cross-section view of FIG. 15, taken along the line G-G of FIG. 15, and referring to FIG. 1. and FIG. 9

[0036] FIG. 17 is an isometric view of another example embodiment. On the top corners of the grabbing bar rack installed a pair of rubber foam corner protection and at the middle area of the top grabbing bar installed a piece of rubber round-shaped cushion.

DETAILED DESCRIPTION OF THE DRAWINGS

[0037] With reference now to the drawings, and in particular FIGS. 1 through 17, thereof, example of the instant moveable barefoot massage grabbing bar rack employing the principles and concepts of the present moveable barefoot massage grabbing bar rack and generally designated by the reference number 10 will be described.

[0038] The present moveable barefoot massage grabbing bar rack 10 has been devised to enable a user to perform barefoot massage upon a prone or supine position patient without requiring any grabbing bars permanent installation at any single location. The present moveable barefoot massage grabbing bar rack 10 comprises five independent components: the first side substantial triangular shaped base 20, the second side substantial triangular shaped base 50, these two substantial triangular shaped bases mounted with the lower portion of a pair of independent upright beams 30 to become the first and the second side stand assembly 40, 70, as well as the substantial rectangular shaped grabbing bar assembly 60 on the top.

[0039] Each of the first and second side substantial triangular shaped base 20, 50 includes a floor beam 20, the vertical upright beam 28 and a pair of angular strut members 26. The floor beam 20 includes a pair of ends 22 and a midpoint 24. The vertical upright beam 28 is disposed perpendicularly endwise at the midpoint 24 of the floor beam 20 to maintain the vertical upright beam 28 aloft vertically situated above the midpoint 24 of the floor beam 20. Each of the pair of strut members 26 is angularly disposed diagonally connecting the upright beam 28 to the floor beam 20 at the midpoint of each half floor beam. Each of the first and second side substantially triangular shaped base 20, 50 is therefore positional spaced apart with each of the associated vertical upright beams 28 disposed in parallel relation.

[0040] Moreover, each of the substantial triangular shaped base 20, 50 mounted with each lower portion of the independent vertical upright beam 30 becomes the first and the second side stands assembly 40, 70, and also therefore positional spaced apart with each of the associated independent upright beams 30 disposed in parallel relation.

[0041] The first and second stands assembly 40, 70 mounted with the pair of upright strut members 64 of grabbing bar assembly 60 become the entire grabbing bar rack 10. The grabbing bar assembly 60 is attachable to the upper portion 44 of the independent vertical upright beam 30 of each of the first and second side stands assembly 40, 70. When secured to each of the first and second side stands assembly 40, 70, the grabbing bar assembly 60 is disposed in a plane perpendicular to each floor beam 20. The grabbing bar assembly 60 thus fixes the first and second side stands assembly 40, 70 together to prevent toppling, shaking, securely spanning between each of said first and second side stands assembly 40, 70, because each of four square-shaped-tube-telescope, shown on FIG. 9, has the same ordination, and be placed in the same plane perpendicular to the floor beams, shown on FIG. 14.

[0042] In the example embodiment depicted in FIG. 10, the grabbing bar assembly 60 includes a pair of parallel bars 62 disposed spaced apart and endwise connected to each of a pair of vertical strut members 64. The length of each of the pair of parallel bars 62 is contemplated to be thirty-six (36) inches, and the length of each of the pair of vertical strut members 64 is contemplated to be twenty (20) inches. Thus, in this embodiment, the pair of parallel bars 62 is disposed approximately twelve (12) inches spaced apart. Each of the pair of parallel bars 62 is contemplated to be cylindrical with a round-shaped transverse cross-section, the better for grasping comfort by a user manually engaging each of the pair of parallel bars 62 and contacting upper bars 62 with the abdomen. In the example embodiment depicted in FIG. 10, each of the pair of parallel bars 62 has a diameter of one and three-sixteenth (1 3/16) inches.

[0043] The transverse cross-section of each of the pair of vertical strut members 64, however, as shown in FIG. 12 is contemplated to be square-shaped tube and one and three-sixteenth (1 3/16) inches outer sides, whereby each of the pair of vertical strut members 64 includes an attachment section 68 positional in flush contact with the upper attachment section 44 of the independent vertical upright beam 30 of the first and second side stands assembly 40, 70.

[0044] In the example embodiment depicted in FIG. 5 and FIG. 10, the upper attachment of the independent upright beam 30 of each of the first and second side stands 40, 70 includes four round holes disposed three and one-half (3.5) inches apart serried vertically, each pair of odd and even number holes become two pairs of anchor points 36, 38, connected to each attachment section 68 of the pair of vertical strut members 64 is securable at the anchor points 66, of a pair of holes disposed seven (7) inches apart vertically thereupon. Therefore, with a desired pair of anchor points 36 and 38 enables the grabbing bar assembly 60 at a desired adjustable height positions of three and one-half (3.5) inches difference.

[0045] In the example embodiment depicted in FIG. 5 and FIG. 8, the lower attachment section 42 of the independent vertical upright beam 30 of each of the first and second side stands assembly 40, 70 includes four round holes disposed three and one-half (3.5) inches apart serried vertically, each pair of odd and even number holes becomes two pairs of anchor points 32, 34, connected to each of upper portion of the pair of the vertical upright beam 28 of the substantial triangular shaped bases 20, securable at the anchor points 46, with which a pair of holes disposed seven (7) inches apart vertically. Therefore, with a desired a pair of anchor points 32 and 34 enables the entire rack getting two more adjustable height positions of three and one-half (3.5) inches difference.

[0046] It should be readily understood by anyone having skills in the pertinent art that additional means of securement of the grabbing bar assembly 60 with height relate to floor beams is adjustable between seven inches of 3 positions is contemplated as part of this disclosure.

[0047] The first and second side substantial triangular shaped bases 20, 50 are contemplated to be manufactured of aluminum alloy square-shaped tubes, and the grabbing bar assembly 60 of aluminum alloy square-shaped and round-shaped tubes, or another lightweight, hollow metal, whereby the weight of each of the first and second side substantial triangular shaped bases 20, 50 and the grabbing bar assembly is controllable within acceptable norms for portability yet tensile strength and rigidity is maintained capable of supporting an adult human prostrating on the grabbing bar assembly 60 when said grabbing bar assembly 60 is secured spanning between each of the first and second side stands assembly 40, 70. The independent upright beam 30 is made of galvanized steel square-shaped tube and has rigid supporting features.

[0048] In the example embodiment depicted in FIG. 3, vertical upright square tube 28, the transverse cross section A-A of the first and second side substantial triangular bases 20, 50 is configured to be a square-shaped of one and three-sixteenth (1 3/16) inches outer sides. Referring to FIG. 2, the length of each floor beam 20 is contemplated to be forty-eight (48) inches, and the distance between each of the pair of strut members 26, at the point of conjunction with the floor beam 20, is taken to be twenty-four (24) inches. The height at each of the pair of strut members 26 conjoins with the upright beam 28 is taken to be twelve (12) inches, making the length of each strut member 26 approximately seventeen (17) inches. In this embodiment, the length of the upright beam 28 is taken to be at twenty-two and one-half (22.5) inches, however, mounted with the independent upright beam 30, the total height of the stand assembly is approximately fifty-nine (59) inches, and then, the grabbing bar assembly is mounted, so the total utmost height of the grabbing bar rack is about seventy (70) inches. To summarize that the length of the floor beam 20 is at least 65% of the highest measuring of this rack to enable the rack stable.

[0049] In an example embodiment contemplated herein, the length of the independent vertical upright beam 30 is changeable due to different raised surface or a ground surface, thus one set of moveable barefoot massage grabbing bar rack may include two or three pairs of independent vertical upright beams with different lengths.

[0050] As shown in an example embodiment depicted in FIG. 1, when secured to each of the first and second side stands assembly 40, 70, the grabbing bar assembly 60 is disposed in a plane perpendicular to each floor beam 20 and in the same plane with the pair of the independent vertical upright beams 30. The grabbing bar assembly 60 thus fixes the first and second side stands assembly 40, 70 together to prevent toppling, shaking, securely spanning between each of said first and second side stands assembly 40, 70, because the four square-shaped-tube-telescope structures, 68 versus 44 and 28 versus 42, have ordinations, and be placed in the same orientation of the same plane perpendicular, referring to FIG. 14. and FIG. 9

[0051] As shown in an example embodiment depicted in FIG. 15 and FIG. 16, in order to eliminate the intervals between the independent vertical upright beam 30 and the outer, bigger square-shaped tubes, of both the vertical upright beam 28 of the substantial triangular shaped base 20 and the vertical strut members attachment section 68 of the grabbing bar assembly 60, this invention utilizes a special screw-nuts securement 80; said a special screw-nuts securement 80 is tightened in the hollow of outer square-shaped tubes 28, 64, only making inside surface of the outer square-shaped tubes 28, 68 contacts the outside surface of the independent vertical upright beam 30, utilizing one copper tube-sets 86 to go through the round hole at the wall of the outer square-shaped tubes 28, 68 and to transfer the pressure from the screw knob of the screw with shank 82 onto the outer surface of the independent vertical upright beam 30, tightened by this set of screw and nuts 82, 84, and washers 88, 90, as well as said copper tube-sets 86.

[0052] In another example embodiment 100, shown in FIG. 17, on the upper corners of the grabbing bar assembly 60, there is a pair of metal corner protection 101, made of rubber foam to prevent users or patient from eyes injury; and at the middle area of the upper grabbing bar 62 installed a round-shaped cushion 102, made of softer rubber martial to better conformable for support the users' abdomen when users applying bodyweight onto the upper grabbing bars 62.