Mini-Concrete Trowel Attachment Assembly

Abstract

An improved mini-trowel attachment assembly having a rotary stabilizer with a plurality of screw holes disposed therein with a plurality of replacement blades secured therein by a plurality of screw members. The plurality of replacement blades include at least a pair of elongated adjustable slots that allows the replacement blades to be adjusted inward of the outer peripheral edge of the rotary stabilizer. A free-wheeling self-lubricating bearing assembly having a first non-rotary bearing and spacer ring member attached to the rotary stabilizer and a second free-wheeling member attached to the first non-rotary bearing and spacer ring member that freely rotates when it engages wall structures and upstanding obstructions in concrete surfaces. Also, the elongated slots allows the replacement blades to be adjusted inward of the outer peripheral edge of the free-wheeling self-lubricating bearing assembly.

Claims

1: A mini-concrete trowel attachment assembly comprising: a rotary stabilizing disk, the rotary stabilizing disk having a top surface and a bottom surface with a plurality of spaced apart screw openings extending there through; a plurality of replacement surface finishing blades, the plurality of replacement finishing blades including a front surface contact portion with an upturned outer peripheral edge, an intermediate portion having one end extending from and connected to a rear end of the front surface contact portion at an inclined angle, and a rear flat portion having a front end extending from and connected to the other end of the intermediate inclined angle portion as a single unit; each of the rear flat portions of the plurality of replacement surface finishing blades includes at least a pair of elongated and adjustable securing slots located at a back end thereof for aligning with the plurality of spaced apart screw openings in the rotary stabilizing disk; a plurality of screw members are inserted through the elongated and adjustable securing slots and through the spaced apart screw openings of the rotary stabilizing disk for securing the plurality of replacement surface finishing blades directly to the rotary stabilizing disk at a selective position near and inward of the peripheral edge of the rotary stabilizing disk defining a surface finishing unit; the adjustable securing slots are designed to accommodate rotary stabilizing disks of varied sizes and is capable of securing the plurality of replacement surface finishing blades directly to the rotary stabilizing disks of varied sizes at a selective position near and inward of the peripheral edge of the rotary stabilizing disks of varied sizes; and a prime mover being attached to the surface finishing unit for rotating the rotary stabilizing disk for smoothing and finishing a viscous material surface by the plurality of replacement finishing blades.

2: The mini-concrete trowel attachment assembly according to claim 1, wherein a free-wheeling bearing guide ring assembly is attached directly to and inward of the outer periphery of the rotary stabilizing disk that the replacement finishing blades are secured thereto, the free-wheeling bearing guide ring assembly includes a first member attached inward of and directly around and adjacent the outer periphery of the rotary stabilizing disk, the first member is an annular non-rotating ring member with a plurality of spaced apart non-rotating arm members having one end extending angularly from and attached to an intermediate inner face portion thereof, and the other end having a plurality of connector screw tabs extending there from with screw securing holes disposed therein.

3: The mini-concrete trowel attachment assembly according to claim 2, wherein the plurality of screw members are inserted into the screw securing holes of the plurality of connector screw tabs to securely attach the first member directly to and inward of the outer periphery of the rotary stabilizing disk, an annular first fastening clip attached to the first member at top and bottom portions thereof, the annular first fastening clip extending radially there from with an outward forward end having a tapered portion, and a fastening cavity is disposed below the top radial portion and above the bottom radial portion of the first fastening clips.

4: The mini-concrete trowel attachment assembly according to claim 2, wherein an outer face portion of the first member having an annular self-lubricating bearing rail and spacer member disposed along an intermediate portion thereof, and opposite the one end of the non-rotating arm that is attached to the intermediate inner face portion.

5: The mini-concrete trowel attachment assembly according to claim 4, wherein a second member is defined as an annular free-wheeling bearing cover guide ring member having a front face and a rear face, the front face engages and encloses the outer face portion and the bearing rail spacer member when the second member is secured to the first annular fastening clips of the first member by a plurality of selective spaced apart second fastening clips, the plurality of selective spaced apart second fastening clips having one end attached to and radially extending from the second member at top and bottom portions thereof, an outward forward end having an outer tapered portion, and a lower portion integrally attached to the outer tapered portion with a radially extending outward end defining a latching fastener, such as bead member; and, a fastening cavity is disposed below the top radial portion and above the bottom radial portion of the first fastening clips, and the outer outward forward end of the second member having an inner tapered portion that aligns with and spaced from the tapered portion of the first annular fastening clips at the top and bottom thereof defining a clearance therebetween.

6: The mini-concrete trowel attachment assembly according to claim 5, wherein the plurality of selective spaced apart second fastening clips are received over the outer tapered portion of the top and bottom portions of the first annular fastening clips with the fastening bead member loosely and firmly fitted within the fastening cavity that is disposed below the top radial portion and above the bottom radial portion of the first annular fastening clips that will causes the front face of the annular free-wheeling bearing cover guide ring member to engage and freely move along the annular self-lubricating bearing rail and spacer member when the prime mover rotates the rotary stabilizing disk with the replacement finishing blades for smoothly finishing a viscous material surface.

7: The mini-concrete trowel attachment assembly according to claim 5, the clearance space defined between the inner tapered portions of the plurality of selective spaced apart second fastening clips of the second member and spaced from the tapered portion of the first annular fastening clips at the top and bottom portions is always maintained when the front face of the annular free-rotating bearing cover guide ring member engages the annular self-lubricating bearing rail and spacer member, and this clearance allows for easy rotation without binding as the fastening bead member moves easily and freely within the fastening cavity that is disposed below the top radial portion and above the bottom radial portion of the first annular fastening clips of the first member.

8: The mini-concrete trowel attachment assembly according to claim 2, wherein the first member, the annular non-rotating ring member, comprises at least a pair of separate semi-circular non-rotating ring members having inner and outer face portions, the at least a pair of separate semi-circular non-rotating ring members abuts one another when they are attached to the rotary stabilizing disk forming a single annular non-rotating ring member; each of the separate semi-circular non-rotating ring members of the single annular non-rotating ring member includes a plurality of selectively spaced apart non-rotating arm members having one end extending from and attached to an intermediate inner face portion thereof, and the other end having a plurality of connector screw tabs extending there from with screw securing holes disposed therein; and, the plurality of screw members are inserted at a selected distance into the screw securing holes of the plurality of connector screw tabs for securing each of the separate semi-circular non-rotating ring members directly to and inward of the outer periphery of the rotary disk, each of the separate semi-circular non-rotating ring members of the single annular non-rotating ring member having a semi-annular first fastening clip attached thereto at top and bottom portions thereof, and extending radially there from with an outward forward end having a tapered portion, and a fastening cavity is disposed below the top radial portion and above the bottom radial portion of each of the first fastening clips.

9: The mini-concrete trowel attachment assembly according to claim 8, wherein the outer face portion of each one of the separate semi-circular non-rotating ring members of the single annular non-rotating ring member includes an annular self-lubricating bearing rail and spacer member disposed along an intermediate portion thereof, and opposite the one end of the non-rotating arm that is attached to the intermediate inner face portion of each one of the separate semi-circular non-rotating ring members annular self-lubricating bearing rail and spacer members, and a second member defined as an annular free-wheeling bearing cover guide ring member having a front face and a rear face, the front face engages and encloses the outer face portion and the bearing rail spacer member when the second member is secured to the first annular fastening clips of the first member by a plurality of selective spaced apart second fastening clips.

10: The mini-concrete trowel attachment assembly according to claim 9, wherein the plurality of selective spaced apart second fastening clips having one end attached to and radially extending from the second member at top and bottom portions thereof, an outward forward end having an outer tapered portion, and a lower portion integrally attached to the outer tapered portion with a radially extending outward end defining a latching fastener, such as bead member, a fastening cavity is disposed below the top radial portion and above the bottom radial portion of the first fastening clips, and the outer outward forward end of the second member having an inner tapered portion that aligns with and spaced from the tapered portion of the first annular fastening clips at the top and bottom thereof defining a clearance therebetween; and wherein the plurality of selective spaced apart second fastening clips are received over the outer tapered portion of the top and bottom portions of the first annular fastening clips with the fastening bead member loosely and firmly fitted within the fastening cavity that is disposed below the top radial portion and above the bottom radial portion of the first annular fastening clips that will causes the front face of the free-rotating bearing cover guide ring member to engage and freely move along the annular self-lubricating bearing rail spacer member when a prime mover rotates the rotary disk with the replacement finishing blades for smoothly finishing a viscous material surface.

11: The mini-concrete trowel attachment assembly according to claim 10, wherein the clearance space defined between the inner tapered portions of the plurality of selective spaced apart second fastening clips of the second member and spaced from the tapered portion of the first annular fastening clips at the top and bottom portions is always maintained when the front face of the free-wheeling bearing cover guide ring member engages the annular self-lubricating bearing rail spacer member, whereby this clearance allows for easy rotation without binding as the fastening bead member moves easily and freely within the fastening cavity that is disposed below the top radial portion and above the bottom radial portion of the first annular fastening clips of the first member.

12: The mini-concrete trowel attachment assembly according to claim 11, wherein each one of the separate semi-circular non-rotating ring members of the single annular non-rotating ring member has a semi-circular annular self-lubricating bearing rail and spacer member disposed along an intermediate portion thereof, each one of the semi-circular annular self-lubricating bearing rail and spacer members includes a bearing channel that receives a plurality of spaced apart self-lubricating ball bearings therein; and the rear inner face of the annular free-wheeling bearing cover guide ring member engages the plurality of spaced apart self-lubricating ball bearings when the annular free-wheeling bearing cover guide ring member is secured to the first annular fastening clips of the first member by a plurality of selective spaced apart second fastening clips to allow the annular free-wheeling bearing cover guide ring member to rotate freely along the self-lubricating ball bearings in opposite directions during a surface finishing operation.

13: The mini-concrete trowel attachment assembly according to claim 12, in which the first and second members, and the plurality of ball bearings are made from self-lubricating material selected from the group consisting of self-lubricating plastics, metals fabricated with various self-lubricating coatings, and a non-metal, such as, carbon graphite.

14: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool, comprising: a rotary stabilizer having a top surface and a bottom surface with a plurality of spaced apart screw holes extending there through; a plurality of replacement blades attached to the bottom surface of the rotary stabilizer; the plurality of replacement blades including a front contact smoothing portion with an upturned outer peripheral edge, an intermediate portion having one end extending from and connected to a rear end of the front contact portion at an inclined angle, and a rear flat portion having a front end extending from and connected to the other end by the intermediate inclined angle portion defining a unitary member; each of the rear flat portions of the plurality of replacement blades includes at least a pair of elongated and adjustable securing slots located at a back end thereof for aligning with the plurality of spaced apart screw holes in the rotary stabilizer; a plurality of screw members are inserted through the elongated and adjustable securing slots and through the spaced apart screw holes of the rotary stabilizer for adjustably securing the plurality of replacement blades directly to the rotary stabilizer at a selective position near and inward of a peripheral edge of the rotary stabilizer; and a free-wheeling bearing guide ring assembly being removably attached directly to and inward of the outer periphery of the rotary stabilizer, and the plurality of flexible replacement blades are adjusted along the elongated slot to secure the plurality of replacement blades at a selective position adjacent and inward of the peripheral edge of the free-wheeling bearing guide ring assembly by the plurality of screw members so that the plurality of replacement blades are able to finish closely to wall structures and around electrical and plumbing stubb obstructions that extend through concrete surfaces, and protecting against any damage thereto by the free-wheeling bearing cover guide ring assembly, while eliminating the need for any additional labor intensive hand trowel concrete surface finishing.

15: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 14, wherein the elongated slots are designed to allow the adjustment of the plurality of replacement blades to align perfectly with any misaligned manufactured screw holes within the rotary stabilizer with the plurality of screw members, without having to replace the rotary stabilizer in order to accommodate the plurality of replacement blades.

16: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 15, wherein the screw members include a selective fine pitch thread, wherein the screw members extend through the rotary stabilizer to a selective distance at the top surface thereof that will prevent debris, concrete, and any other material from penetrating into the screw holes of the rotary stabilizer thus preventing any damage to the fine pitch threads of the screw members that could cause wobbling and shifting of the replacement blades relative to the rotary stabilizer.

17: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 14, wherein the free-wheeling bearing cover guide ring assembly includes a first annular non-rotary ring member with an inner face with a plurality of spaced apart attachment members extending there from, an outer face having an annular self-lubricating bearing and spacer member disposed thereon, a second annular free-rotational ring member having an inner face and an outer face, the plurality of spaced apart attachment members further include a plurality of non-rotating arm members having one end extending from and attached to an intermediate inner face portion of the first annular non-rotary ring member, and the other end of the plurality of non-rotating arm members having a plurality of connector screw tabs extending there from with screw securing holes disposed therein and secured to the rotary stabilizer at a selective position inward of the outer peripheral edge thereof by a plurality of attachment screws.

18: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 17, wherein the first annular non-rotary ring member includes a first annular fastening clip attached integrally at top and bottom radial portions thereof, the annular first fastening clip extending radially there from with an outward forward end having a tapered portion, and a semi-circular fastening cavity disposed below the top radial portion and above the bottom radial portion of the first annular fastening clip, the annular self-lubricating bearing and spacer member is disposed along an intermediate portion of the outer face of the first annular non-rotary ring member, and opposite the one end of the plurality of non-rotating arms that is attached to the intermediate inner face portion; and the free-wheeling bearing guide ring assembly further includes a second annular free-rotating bearing cover guide ring member having a front face and a rear inner face, the rear inner face engages and moves along the outer face portion and the annular self-lubricating bearing and spacer member when the second annular free-rotating bearing cover guide ring member is secured to the first annular fastening clips of the first annular non-rotary ring member by a plurality of selective spaced apart second fastening clips of the second annular free-wheeling bearing cover guide ring member, upon rotation of the rotary stabilizer disk by the prime mover tool.

19: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 18, wherein the plurality of selective spaced apart second fastening clips having one end attached to and radially extending from the second annular free-wheeling bearing cover guide ring member at top and bottom portions thereof, an outward forward end having an outer tapered portion, and a lower portion integrally attached to the outer tapered portion with a radially extending outward end defining a locking fastener, such as bead member; and wherein the outward forward end of the plurality of selective spaced apart second fastening clips having an inner tapered portion that aligns with and spaced from the tapered portion of the first annular fastening clips at the top and bottom portions thereof defining a clearance therebetween, thus the clearance space is always maintained when the front face of the free-rotating bearing cover guide ring member engages the annular self-lubricating bearing and spacer member, whereby this clearance allows for easy rotation without binding as the fastening bead member moves easily and freely within the fastening cavity.

20: An improved mini-concrete trowel apparatus connected to a mover tool according to claim 19, the annular self-lubricating bearing and spacer member includes a front surface with a plurality of spaced apart bearing holes disposed therein, a plurality of self-lubricating ball bearings disposed and snap-fitted loosely within the plurality of spaced apart bearing holes with a portion extending outward thereof, and allowing for a free rotational movement therein; and the rear inner face of the second annular free-rotating bearing cover guide ring includes an annular channel along an intermediate portion thereof that engages and receives the plurality of spaced apart bearings that extend through the spaced apart holes in the outer face portion of the annular self-lubricating bearing and spacer member when the second annular free-rotating bearing cover guide ring member is secured to the first annular fastening clips of the first annular non-rotary ring member by a plurality of selective spaced apart second fastening clips of the second annular free-rotating bearing cover guide ring member, and the second annular free-rotating bearing cover guide ring member is able to move in opposite directions when it engages a wall structure and obstructions disposed within a concrete surface and moves away there from, upon the rotation of the rotary stabilizer disk by the prime mover tool with the adjusted replacement blades finishing the concrete surface right at the wall structure and around the obstructions disposed within the concrete surface, without having to utilize any labor intensive hand trowel finishing.

21: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 20, wherein the first annular non-rotary ring member includes at least a pair of separate semi-circular non-rotary ring members joined together by an abutment engagement with one another to form a unitary annular non-rotary ring member when secured to the rotary stabilizer of the at least a pair of separate semi-circular non-rotating ring members of the unitary annular non-rotary ring member having inner and outer face portions, the inner face portion of each of the separate semi-circular non-rotating ring members of the unitary annular non-rotating ring member includes a plurality of selectively spaced apart non-rotating arm members having one end extending from and attached to an intermediate inner face portion thereof, and the other end having a plurality of connector screw tabs extending there from with screw securing holes disposed therein, a plurality of screw members are inserted into the screw securing holes of the plurality of connector screw tabs for securing each of the separate semi-circular non-rotating ring members directly to and inward of the outer periphery of the rotary stabilizer.

22: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 21, wherein each of the separate semi-circular non-rotating ring members of the unitary annular non-rotating ring member having a semi-annular first fastening clip attached thereto at top and bottom portions thereof, and extending radially there from with an outward forward end having a tapered portion, and a fastening cavity is disposed below the top radial portion and above the bottom radial portion of each of the first fastening clips; and, the outer face portions of each of the separate semi-circular having an annular self-lubricating bearing and spacer member that engages and moves freely along the second annular free-rotating bearing cover guide ring member when it is secured to the first annular fastening clips of the unitary annular non-rotary ring member by the plurality of selective spaced apart second fastening clips of the second annular free-wheeling bearing cover guide ring member, upon rotation of the rotary stabilizer by the prime mover tool.

23: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 22, wherein the first annular non-rotary member, the unitary annular non-rotary member, the second annular free-rotating bearing cover guide ring member, and the plurality of ball bearings are made from self-lubricating material selected from the group consisting of self-lubricating plastics, metals fabricated with various self-lubricating coatings, and a non-metal, such as, carbon graphite.

24: An improved concrete trowel device attached to a hand-operated power tool, the improved concrete trowel device comprising: a rotary disk having a top surface and a bottom surface with a plurality of spaced apart screw holes extending there through; a plurality of flexible replacement blades attached to the bottom surface of the rotary disk; the plurality of flexible replacement blades including a front contact smoothing portion with an upturned outer peripheral edge, an intermediate portion having one end extending from and connected to a rear end of the front concrete contact portion at an inclined angle, and a rear flat portion having a front end extending from and connected to the other end by the intermediate inclined angle portion defining a unitary member; each of the rear flat portions of the plurality of flexible replacement blades includes at least a pair of elongated and adjustable securing slots located at a back end thereof for aligning with the plurality of spaced apart screw holes in the rotary disk; a plurality of screw members are inserted through the elongated and adjustable securing slots and through the spaced apart screw holes of the rotary disk for adjustably securing the plurality of flexible replacement blades directly to the rotary disk at a selective position near and inward of a peripheral edge of the rotary disk; and a free-rotating bearing guide ring assembly being attached directly to and inward of the outer periphery of the rotary disk, and the plurality of flexible replacement blades are adjusted along the elongated slot to secure the plurality of flexible replacement blades at a selective position at and adjacent to the peripheral edge of the rotary disk by the plurality of screw members so that the plurality of flexible replacement blades are able to finish closely to wall structures and around electrical and plumbing stubb obstructions that extend through concrete surfaces, and protecting against any damage thereto by the free-wheeling bearing guide ring assembly, while eliminating the need for any additional labor intensive hand trowel surface finishing.

25: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 24, wherein the free-wheeling bearing guided ring assembly includes a first annular non-rotary ring member having an inner face and an outer face, the inner face includes a plurality of spaced apart attachment tabs for securing the first annular non-rotary ring member directly to the rotary disk by a plurality of screw members, the outer face includes an annular self-lubricating bearing rail and spacer member, the first annular non-rotary ring member having a first annular clip fastener, a second free-wheeling bearing cover guide ring member having a plurality of selective spaced apart second clip fasteners.

26: An improved mini-concrete trowel attachment apparatus connected to a prime mover tool according to claim 25, wherein the self-lubricating bearing rail and spacer member engages the second annular free-wheeling bearing cover guide ring member when it is secured to the first annular fastening clips of the first annular non-rotary ring member by the plurality of selective spaced apart second fastening clips of the second annular free-rotating bearing cover guide ring member to allow the second annular free-wheeling bearing cover guide ring member to rotate freely in different directions when the second annular free-rotating bearing cover guide ring member moves against and away from the wall structures and around electrical and plumbing stubb obstructions during concrete surface finishing by the plurality of flexible replacement blades, upon rotation of the rotary disk by the prime mover hand-operated power tool.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0063] The present invention may be better understood, along with its numerous objects, features, and advantages made apparent to those skilled in the art by referencing the accompanying drawings.

[0064] FIG. 1 illustrates a perspective view of a prior art surface finishing replacement blade having a pair of screw securing holes according to the present invention.

[0065] FIG. 2 illustrates a perspective view of a surface finishing replacement blade having a pair of adjustable elongated screw securing slots of a first embodiment according to the present invention.

[0066] FIG. 2A illustrates a perspective view of a surface finishing replacement blade having a pair of adjustable arcuate or bow-shaped elongated screw securing slots of a second embodiment according to the present invention.

[0067] FIG. 3A illustrates a perspective bottom view of a selective sized surface finishing rotary stabilizer or disk with at least three equally spaced replacement blades secured thereto by a pair screw members via a pair of adjustable elongated screw securing slots of a first embodiment according to the present invention.

[0068] FIG. 3B illustrates a perspective bottom view of a selective sized surface finishing rotary stabilizer or disk with at least three equally spaced replacement blades secured thereto by a pair of screw members via a pair of adjustable arcuate or bow-shaped elongated screw securing slots of a second embodiment according to the present invention.

[0069] FIG. 4A illustrates a perspective bottom view of a selective sized surface finishing rotary stabilizer or disk with at least four equally spaced replacement blades secured thereto by a pair of screw members via a pair of adjustable elongated screw securing slots of a first embodiment according to the present invention.

[0070] FIG. 4B illustrates a perspective bottom view of a selective sized surface finishing rotary stabilizer or disk with at least four equally spaced replacement blades secured thereto by a pair of screw members via a pair of adjustable arcuate or bow-shaped elongated screw securing slots of a second embodiment according to the present invention.

[0071] FIG. 5A illustrates a cut sectional side view of a free-wheeling bearing guide ring assembly having an annular non-rotary ring with a plurality of spaced apart non-rotating arm members and a plurality of integral connector screw tabs secured to a rotary surface finishing stabilizer or disk and an annular free-rotating bearing cover guide ring fastened thereto and freely movable along a bearing rail and spacer member of the annular non-rotary ring of a first embodiment according to the present invention.

[0072] FIG. 5B illustrates a cut sectional side view of a free-wheeling bearing guide ring assembly having plurality of spaced apart non-rotating arm members and a plurality of integral connector screw tabs secured to a rotary surface finishing stabilizer or disk and an annular free-rotating bearing cover guide ring fastened thereto and freely movable along a bearing rail and spacer member of the annular non-rotary ring of a second embodiment according to the present invention.

[0073] FIG. 5C illustrates a bottom perspective view of a free-wheeling bearing guide ring assembly with a plurality of replacement blades secured to a rotary surface finishing stabilizer or disk at a selective peripheral edge thereof via a pair of adjustable arcuate or bow-shaped elongated slots according to the present invention.

[0074] FIG. 6A illustrates a cut sectional side view of a free-wheeling bearing guide ring assembly having an annular non-rotary ring with a plurality of spaced apart non-rotating arm members and a plurality of integral connector screw tabs secured to a rotary surface finishing stabilizer or disk and an annular free-rotating bearing cover guide ring fastened thereto and freely movable along a plurality of spaced apart bearing members disposed within an annular channel in a front outer face surface of the non-rotary ring and along an annular channel in an inner face surface of the free-rotating bearing cover guide ring of a first embodiment according to the present invention.

[0075] FIG. 6B illustrates an exploded cut sectional side view of a free-wheeling bearing guide ring assembly having an annular non-rotary ring with a plurality of spaced apart non-rotating arm members a plurality of connector screw tabs secured to a rotary surface stabilizer or disk and an annular free-rotating bearing cover guide ring fastened thereto and freely movable along a plurality of spaced apart bearing members disposed within an annular channel in a front outer face surface of the non-rotary ring and along an annular channel in an inner face surface of the free-rotating bearing cover guide ring of a first embodiment according to the present invention.

[0076] FIG. 6C illustrates an exploded cut sectional side view of a free-wheeling bearing guide ring assembly having an annular non-rotary ring with a plurality of spaced apart non-rotating arm members a plurality of connector screw tabs secured to a rotary surface finishing stabilizer or disk and an annular free-rotating bearing cover guide ring fastened thereto and freely movable along a plurality of spaced apart bearing members disposed within a plurality of spaced apart bearing openings in a front outer face surface of the non-rotary ring and along an annular channel in an inner face surface of the free-rotating bearing cover guide ring of a second embodiment according to the present invention.

[0077] FIG. 7 illustrates a perspective view of a free-wheeling bearing guide ring assembly connected to a prime mover for smoothly finishing a concrete or viscous material surface around upstanding obstructions disposed therein with a free-wheeling bearing guide ring assembly connected to a rotary finishing disk or stabilizer by the prime mover, a tool extension, and a coupling member operated by a user according to the present invention.

[0078] FIG. 7A illustrates a cut-out sectional view of an unsmoothed area around an upstanding obstruction member disposed within a concrete or viscous material surface according to present invention.

[0079] FIG. 7B illustrates a cut-out sectional view of a smoothed area around an upstanding obstruction member disposed within a concrete or viscous material surface that has been smoothly finished by a rotary stabilizer or disk having replacement blades with a free-wheeling bearing guide ring assembly attached thereto according to present invention.

[0080] FIG. 7C illustrates a cut-out sectional view of a free-wheeling bearing guide ring assembly connected to a prime mover for smoothly finishing a concrete or viscous material surface around upstanding obstructions disposed therein with the free-wheeling bearing guide ring assembly connected to a rotary finishing disk or stabilizer by a coupling member according to the present invention

[0081] FIG. 8A illustrates a perspective top view of an annular non-rotary ring with a plurality of spaced apart non-rotating arm members and a plurality of integral connector screw tabs secured to a rotary surface finishing stabilizer or disk according to the present invention.

[0082] FIG. 8B illustrates a perspective exploded top view of a pair of semi-circular non-rotary ring with a plurality of spaced apart non-rotating arm members and a plurality of integral connector screw tabs secured to a rotary surface finishing disk according to the present invention.

DETAILED DESCRIPTION

[0083] The present invention defines a surface finishing tool with a rotary surface finishing stabilizer or disk with a plurality of replacement blades having a pair of adjustable and elongated slots for adjusting the plurality of replacement blades near a peripheral edge of the rotary surface finishing stabilizer or disk and a near a peripheral edge of a free-wheeling bearing guide ring assembly when attached to the rotary surface finishing stabilizer or disk, which will be discussed in greater detail below.

[0084] As shown in FIG. 1, a prior art surface finishing replacement blade unit being designated as 10 includes a replacement blade member 11 having a surface contact portion 12, an intermediate angular portion 13 that extends from the surface contact portion 12, and an attachment portion 15 that is integrally connected and extends angularly away from the intermediate portion 13. The attachment portion 14 includes a pair of attachment screw holes 15 disposed therein with a pair of screw members 16 and a pair of washers 19. Also, the replacement blade 11 further includes a trailing edge 17, and an outer bent edge 18. Attention is directed to FIG. 6, columns 5-8 of U.S. Pat. No. 7,144,194 B2, for details of the prior art surface finishing replacement blade 10 of the instant application.

[0085] FIG. 2 is very similar to the prior art of FIG. 1 as discussed above, except for the uniqueness of the pair of screw holes having an elongated shape. The surface finishing replacement blade unit being designated as 20 includes a replacement blade member 21 having a surface contact portion 22, an intermediate angular portion 23 that extends from the surface contact portion 22, and an attachment portion 15 that is integrally connected and extends angularly away from the intermediate portion 13. The attachment portion 24 includes a pair of attachment screw slots 25 that is elongated in shape are disposed therein, a pair of screw members 26 to be received within the elongated screw holes 25 and a pair of washers 29 to receive the pair of screw members 26. Also, the replacement blade 21 further includes a trailing edge 27, and an outer bent edge 28.

[0086] The inventive concept of the elongated shaped screw slots 25 will now be discussed. These elongated shaped screw slots 25 will allow the replacement blade member 21 to be selectively adjusted at or near a peripheral edge of a rotary surface finishing disk to are able to finish right at wall structures and around electrical or plumbing stubb obstructions within concrete and other viscous or plastic surfaces, while allowing for smooth finishing at the wall structures and around the electrical or plumbing stubb obstructions, thus eliminating the need for any additional labor intensive hand finishing.

[0087] A further inventive concept of the elongated shaped screw slots 25 is designed to allow the replacement blade member 21 to be selectively adjusted at or near a peripheral edge of an annular free-wheeling bearing guide ring assembly 50, 60, 70 as referenced in FIGS. 5A-5B and 6A-C of the instant application. Note that details of the annular free-wheeling bearing guide ring assembly 50, 60, 70 will be discussed later.

[0088] The selective adjustment of the screw members 26 within the elongated slots 25 will allow the replacement blade member 21 to finish right at wall structures and around electrical or plumbing stubb obstructions within concrete and other viscous or plastic surfaces, while allowing for smooth finishing at the wall structures and around the electrical or plumbing stubb obstructions upon the annular free-wheeling bearing guide ring assembly 50, 60, 70 engaging the wall structures and the electrical or plumbing stubb obstructions without damaging or marking thereto, thus eliminating the need for any additional labor intensive hand finishing.

[0089] Now referring to FIG. 2A, this embodiment is the same as FIG. 2 with the same reference numerals represented with “a”. The surface finishing replacement blade unit being designated as 20a includes a replacement blade member 21a having a surface contact portion 22a, an intermediate angular portion 23a that extends from the surface contact portion 22a, and an attachment portion 15a that is integrally connected and extends angularly away from the intermediate portion 13a. The attachment portion 24a includes a pair of attachment screw slots 25a having an elongated arcuate or bow shape disposed therein, a pair of screw members 26a to be received within the elongated arcuate or bow-shaped screw slots 25a and a pair of washers 29a to receive the pair of screw members 26a. Also, the replacement blade 21a further includes a trailing edge 27a, and an outer bent edge 28a.

[0090] In order to not be redundant, the inventive concepts and operation of FIG. 2A is the same as FIG. 2 as discussed above with the only exception being that elongated slots 25 and 25a have different shaped slots.

[0091] Note that FIGS. 3A and 3B are identical except that the elongated screw slot reference numeral in FIG. 3A is represented by reference numeral 37 and the elongated arcuate or bow-shaped screw slot in 3B is represented by reference numeral 37b.

[0092] FIGS. 3A and 3B shows bottom perspective views of the present invention, which shows a rotary surface finishing stabilizer or disk assembly 30. The rotary surface finishing stabilizer or disk assembly 30 includes a rotary surface finishing stabilizer or disk 31 with a bottom surface 32, a concentric power tool shaft attachment passage 32a that is configured to fit about an output shaft of a power tool for securing the rotary surface finishing stabilizer or disk 31 thereto and driving the rotary surface finishing stabilizer or disk 31, a plurality of selectively spaced and adjustable replacement finishing blade members 36, each of the plurality of selectively spaced and adjustable replacement finishing blade members 36 having a surface contact portion 34, an intermediate angular portion 34a that extends from the surface contact portion 34, and an attachment portion 35 that is integrally connected and extends angularly away from the intermediate portion 34a. The attachment portion 35 includes a pair of attachment screw slots 37 that is elongated in shape are disposed therein, a pair of screw members 37a to be received within the elongated screw slots 37 to secure the plurality of selectively spaced and adjustable replacement finishing blade members 36 to the rotary surface finishing stabilizer or disk 31. Also, the plurality of selectively spaced and adjustable replacement blade members 36 further includes a trailing edge 38, and an outer bent edge 39.

[0093] To not be redundant, FIG. 3B as stated above is the same as FIG. 3A except for the shapes of the elongated shaped slots 37 and 37b. The elongated slot in FIG. 3B shows an arcuate or a bow-shaped screw slot. Note that the reference numerals are identical to the ones described in FIG. 3A. Therefore, a description of FIG. 3B is not deemed necessary since the same information has been fully described above in FIG. 3A.

[0094] However, the inventive concept of the elongated shaped screw slots 37 will now be discussed. These elongated shaped screw slots 37 will allow the replacement blade member 36 to be selectively adjusted at or near a peripheral edge of a rotary surface finishing stabilizer or disk in order to finish right at wall structures and around electrical or plumbing stubb obstructions within concrete and other viscous or plastic surfaces, while allowing for smooth finishing at the wall structures and around the electrical or plumbing stubb obstructions, thus eliminating the need for any additional labor intensive hand finishing.

[0095] A further inventive concept of the elongated shaped screw slots 37 and the arcuate or bow-shaped screw slots 37b are designed to allow the replacement blade members 36 to be selectively adjusted at or near a peripheral edge of an annular free-wheeling bearing guide ring assembly 50, 60, 70 as referenced in FIGS. 5A-5B and 6A-C of the instant application. Note that details of the annular free-wheeling bearing guide ring assembly 50, 60, 70 will be discussed later below.

[0096] The selective adjustment of the screw members 37a within the elongated shaped screw slots 37 and the arcuate or bow-shaped screw slots 37b will allow the replacement blade members 36 to finish right at wall structures and around electrical or plumbing stubb obstructions within concrete and other viscous or plastic surfaces, while allowing for smooth finishing at the wall structures and around the electrical or plumbing stubb obstructions upon the annular free-wheeling bearing guide ring assembly 50, 60, 70 engaging the wall structures and the electrical or plumbing stubb obstructions without damaging or marking thereto, thus eliminating the need for any additional labor intensive hand finishing.

[0097] FIGS. 4A and 4B are identical except that the elongated screw slot reference numeral in FIG. 3A is represented by reference numeral 47 and the elongated arcuate or bow-shaped screw slot in 3B is represented by reference numeral 47b.

[0098] Note that FIGS. 4A and 4B shows bottom perspective views of the present invention, which shows a rotary surface finishing disk assembly 40. The rotary surface finishing stabilizer or disk assembly 40 includes a rotary surface finishing stabilizer or disk 41 with a bottom surface 42, a concentric power tool shaft attachment passage 42a that is configured to fit about an output shaft of a power tool for securing the rotary surface finishing stabilizer or disk 41 thereto and driving the rotary surface finishing stabilizer or disk 41, a plurality of selectively spaced and adjustable replacement finishing blade members 46, each of the plurality of selectively spaced and adjustable replacement finishing blade members 36 having a surface contact portion 44, an intermediate angular portion 44a that extends from the surface contact portion 44, and an attachment portion 45 that is integrally connected and extends angularly away from the intermediate portion 44a. The attachment portion 45 includes a pair of attachment screw slots 37 that is elongated in shape are disposed therein, a pair of screw members 47a to be received within the elongated shaped screw slots 47 and the elongated arcuate or bow-shaped screw slots 47b to secure the plurality of selectively spaced and adjustable replacement finishing blade members 46 to the rotary surface finishing stabilizer or disk 41. Also, the plurality of selectively spaced and adjustable replacement blade members 36 further includes a trailing edge 48, and an outer bent edge 49.

[0099] Details of FIG. 4B will not be discussed since it is the same as FIG. 4A except for the elongated arcuate or bow-shaped screw slots 47b to eliminate redundancy and the number of selectively spaced and adjustable replacement finishing blade members 46 secured to the rotary surface finishing disk 41. Note that the inventive concept and purpose for the elongated arcuate or bow-shaped screw slots 47b is the same as discussed above for the elongated screw slots in FIGS. 2, 3A and 4A.

[0100] Another inventive concept as shown in FIGS. 3A, 3B, 4A and 4B is that the rotary surface finishing stabilizers or disks 31 and 41 can be of different selective sizes and adaptable to accommodate a different number of selectively spaced and adjustable replacement finishing blade members 36 and 46.

[0101] In addition, the selective positions of the plurality of screw members 47a in FIG. 4B are designed to accommodate for any slightly offset manufactured screw holes 51c (see FIGS. 8A and 8B) in the rotary surface finishing disk 41. Therefore, if the manufactured screw holes 51c are slightly offset they can easily line up with the elongated shaped screw slots 25, 37 and 47 as shown in FIGS. 2, 3A and 4A and the elongated arcuate or bow-shaped screw slots 25a, 37b and 47b as shown in FIGS. 2A, 3B, 4B and 5C in order for the plurality of screw members 26, 26a, 37a and 47a as shown in FIGS. 2A, 3B, 4B and 5C to easily pass there through and into the manufactured screw holes 51c. Such an alignment will allow the plurality of selectively spaced and adjustable replacement finishing blade members 21, 21a 36 and 46 to be secured and selectively positioned near or at the peripheral edge of the rotary surface finishing stabilizers or disks 31, 41, 51 and 61 to achieve a smooth finish over a concrete and other viscous or plastic surfaces, as well as, finishing smoothly along wall structures and around electrical or plumbing stubb obstructions within concrete and other viscous or plastic surfaces, thus eliminating extensive hand labor with a hand trowel by a user or worker.

[0102] It is to be noted that the above offset alignment accommodation between the screw holes 51c and the elongated shaped screw slots 25, 37 and 47 and the elongated arcuate or bow-shaped screw slots 25a, 37b and 47b eliminates a user from having to replace a rotary finishing stabilizer or disk due to any offset manufactured holes 51c, whereby a user would have to replace a rotary finishing stabilizer or disk with the pair of single-type screw holes 15 of the plurality of spaced apart replacement finishing blades 21 as shown in the prior art as illustrated above in FIG. 1.

[0103] Another inventive concept of the present invention provides the screw members 26, 26a, 37a and 47a as shown in FIGS. 2A, 3B, 4B and 5C with a selective fine pitch thread. The selective fine thread screw members 26, 26a, 37a and 47a extend through the rotary finishing disks 31, 41, 51 and 61 at a selective distance at a top portion thereof that will prevent debris, concrete, and other viscous or plastic material from penetrating into the threaded screw holes 51c of the rotary finishing stabilizers or disks 31, 41, 51 and 61 and preventing damage to the threads that can cause loosening and wobbling of the plurality of selectively spaced and adjustable replacement finishing blade members 21, 21a 36 and 46 relative to the rotary finishing stabilizers or disks 31, 41, 51 and 61.

[0104] FIG. 5A illustrates a cut sectional side view of a free-wheeling bearing guide ring assembly 50 having a first member as an annular non-rotary ring 53 with a plurality of spaced apart non-rotating arm members 52 with a forward end defining a clip fastening structure 52a, and a rear end defining a plurality of integral connector screw tabs 52d with a screw opening 52c disposed therein for securing the plurality of spaced apart non-rotating arm members 52 to a rotary surface finishing stabilizer or disk 51 via a screw opening 58a disposed therein by a screw member 58.

[0105] Further, the plurality of spaced apart non-rotating arm members 52 are angled upward from a bent point 52b at a front end of the integral connector tabs 52d to a rear end face defined by an upper portion 53b and a lower portion 53b′ at an intermediate intersecting location of the clip fastening structure 52a. This intermediate intersecting location defines an upper radial extending clip fastening member 54 and lower radial extending clip fastening member 54′ of the clip fastening structure 52a, which are identical. The upper radial extending clip fastening member 54 includes a top end portion 54b, an outward tapered or bevel rear end portion 54a, and a bottom end portion 54c extending inward from the outward tapered or bevel rear end portion 54a.

[0106] Note that the lower radial extending clip fastening member 54′ is the reverse or flip position of the upper radial extending clip fastening member 54. Therefore, the lower radial extending clip fastening member 54′ includes a top end portion 54c′, an outward tapered or bevel rear end portion 54a′, and a bottom end portion 54b′ extending inward from the outward tapered or bevel rear end portion 54a′ extending towards the front end 51a of the rotary finishing disk or stabilizer but selectively spaced from the peripheral edge of the front end 51a. The purpose for the selectively spacing will be discussed in greater detail later.

[0107] Between the upward angled plurality of spaced apart non-rotating arm members 52 and the rotary finishing stabilizer or disk 51 an open clearance space 59 is formed therebetween. The lower radial extending clip fastening member 54′ is disposed within the open clearance space 59. Therefore, the bottom end portion 54b′ is positioned within the open clearance space 59 at a selective distance above the top portion of the rotary finishing stabilizer or disk 51 creating a clearance gap 59a therebetween.

[0108] Further, the annular non-rotary ring 53 includes a front outer face surface 53a. The front outer face surface 53a of the annular non-rotating ring 53 having an annular self-lubricating bearing rail spacer member 55 disposed along an intermediate portion thereof, and opposite the integral end of the non-rotating arm 52 that is attached to the intermediate rear end face defined by the upper portion 53b and a lower portion 53b′ at the intermediate intersecting location of the clip fastening structure 52a.

[0109] A free-wheeling bearing guide ring assembly 50 of the present invention having a second member including an upper clip member and a lower clip member that are removably attached to the clip fastening structure 52a for free movement there along in different directions about the annular non-rotating ring 53 at its upper and lower ends thereof.

[0110] Further in FIG. 5A, the upper clip member of the free-wheeling bearing guide ring assembly 50 includes a second member defined as an annular free-rotating bearing cover guide ring 56. The upper clip member of the annular free-rotating bearing cover guide ring 56 having an annular top outer portion 56a, an annular top inner portion 56j, an annular bottom end portion 56d, an annular bottom inner end portion 56f, an annular front outer face portion 56h, an annular rear inner face portion 56i, an annular tapered or bevel rear outer end portion 56b, and an annular tapered or bevel rear inner end portion 56c forming an annular clip fastening device. The annular top outer portion 56a extends radially from the front outer face portion 56h and the annular rear inner face portion 56i and outwardly connected to the annular tapered or bevel outer rear end portion 56b and the annular tapered or bevel inner rear end portion 56c, and the annular bottom outer end portion 56d extending inward from the annular outer tapered or bevel end portion 56b and the annular bottom inner end portion 56f to a bead fastening member 56e.

[0111] The lower clip member of the annular free-rotating bearing cover guide ring 56 is a reverse orientation of the upper clip member of the annular free-rotating bearing cover guide ring 56. This means that the annular top outer portion 56a of the upper clip member represents the bottom outer end portion 56a′ of the lower clip member and the bottom outer end portion 56d of the upper clip member represents the annular top outer portion 56d′. Therefore, the referenced elements of the lower clip member will now be discussed.

[0112] In FIG. 5A, the lower clip member of the annular free-rotating bearing cover guide ring 56 having an annular top outer portion 56d′, an annular top inner portion 56f, an annular bottom outer end portion 56a′, an annular bottom inner end portion 56j′, an annular front outer face portion 56h, an annular rear inner face portion 56i, an annular tapered or bevel rear outer end portion 56b′, and an annular tapered or bevel rear inner end portion 56c′ forming an annular clip fastening device. The annular top outer portion 56d′ extends radially inward from the annular tapered or bevel outer rear end portion 56b′ and the annular top inner portion 56f′ extends radially inward from the annular tapered or bevel inner rear end portion 56c′ to a fastening bead member 56e′. Further, the bottom outer end portion 56a′ extends radially from the front outer face portion 56h and outwardly connected to the annular tapered or bevel outer rear end portion 56b′ and the bottom inner end portion 56j′ extends radially from the front outer face portion 56h and outwardly connected to the annular tapered or bevel inner rear end portion 56c′.

[0113] In operation, the upper clip member 56a-56j of the annular free-rotating bearing cover guide ring 56 is received over the upper part of the clip fastening structure 52a and the upper clip fastening member defined by 53a-53b, and 54-54j and a lower part of the clip fastening structure 52a and the lower clip fastening member defined by 53a′-53b′ and 54′-54j′. When this fastening takes place, the upper fastening bead member 56e of the annular free-rotating bearing cover guide ring 56 will snap underneath and engage the upper bottom end portion 54c of the annular non-rotary ring 53 and the lower fastening bead member 56e′ of the annular free-rotating bearing cover guide ring 56 will snap over and engage the lower top end portion 54c′ of the annular non-rotary ring 53. Once this happens, the rear inner face surface 56i of the annular free-rotating bearing cover guide ring 56 encloses the front outer face surface 53a of the annular non-rotating ring 53 and the clip fastening structure 52a and engages the annular bearing rail spacer member 55 of the annular non-rotary ring 53.

[0114] The engagement of the annular free-rotating bearing cover guide ring 56 against the annular bearing rail spacer member 55 of the annular non-rotary ring 53 forms annular space 57 between the front outer face surface 53a of the annular non-rotating ring 53, the rear inner face surface 56i of the annular free-rotating bearing cover guide ring 56, the upper part of the clip fastening structure 52a and the upper clip fastening member defined by 53a-53b, and 54-54j and a lower part of the clip fastening structure 52a and the lower clip fastening member defined by 53a′-53b′ and 54′-54j′. This space allows the annular free-rotating bearing cover guide ring 56 to rotate freely without any binding around and along the non-rotary ring 53. Also, the annular free-rotating bearing cover guide ring 56 is able to rotate freely in different direction around along the non-rotary ring 53 when the annular free-rotating bearing cover guide ring 56 abuts or engages a wall structure, and plumbing or electrical obstructions upstanding in a concrete or viscous material surface during a concrete or viscous material smoothing and finishing operation. This abutment or engagement of the annular free-rotating bearing cover guide ring 56 against a wall structure, and plumbing or electrical obstructions eliminates markings or damage thereto.

[0115] The dimension of the clearance gap 59a formed between the bottom end portion 54b′ and the top portion of the rotary finishing stabilizer or disk decreases after the annular free-rotating bearing cover guide ring 56 is fastened to the annular non-rotary ring 53, but the decrease in the dimension of the clearance gap 59a will still be sufficient to prevent the annular free-rotating bearing cover guide ring 56 from hitting the top of the rotary finishing stabilizer or disk 51 during a concrete or viscous material smoothing operation.

[0116] FIG. 5B illustrates a cut sectional side view of a free-wheeling bearing guide ring assembly 50 having plurality of spaced apart non-rotating arm members 52 and a plurality of integral connector screw tabs 52d secured to a rotary surface finishing stabilizer or disk 51 and an annular free-wheeling bearing cover guide ring 56 fastened thereto and freely movable along a self-lubricating bearing rail and spacer member 55 of the annular non-rotary ring 53 of a second embodiment according to the present invention.

[0117] Note that FIG. 5B is identical to FIG. 5A as explained above except that each one of the bottom end portion 54c of the upper radial extending clip fastening member 54 and the top end portion 54c′ of the lower radial extending clip fastening member 54′ includes an annular channel or groove 54d and 54d′, respectively, within the annular non-rotary ring 53 and the clip fastening structure 52a to snap fit the fastening bead member 56e and 56e′ therein to allow the annular free-wheeling bearing cover guide ring 56 to rotate freely along and around the annular non-rotary ring 53 without any binding. Therefore, no additional information is necessary for explanation purposes since 5B is the same as 5A as stated above. All of the reference elements are the same except for the above exception.

[0118] Now referring to FIG. 5C, which illustrates a bottom perspective view of the free-wheeling bearing guide ring assembly 60 with a plurality of replacement blades 21a secured to a rotary surface finishing stabilizer or disk 61 at a selective peripheral edge thereof via a pair of adjustable arcuate or bow-shaped elongated slots 25a according to the present invention. The rotary surface finishing stabilizer or disk 61 includes a concentric power tool shaft attachment passage 62a that is configured to fit about an output shaft of a power tool 82 (see FIG. 7) for securing the rotary surface finishing stabilizer or disk 61 thereto and driving the rotary surface finishing stabilizer or disk 61, a plurality of selectively spaced and adjustable replacement finishing blade members 21a, each of the plurality of selectively spaced and adjustable replacement finishing blade members 21a having a surface contact portion 22, an intermediate angular portion 23 that extends from the surface contact portion 22, and an attachment portion 24a that is integrally connected and extends angularly away from the intermediate portion 23.

[0119] The attachment portion 24a includes a pair of elongated arcuate or bow-shaped attachment screw slots 25a disposed therein, a pair of screw members 26a to be received within the elongated arcuate or bow-shaped attachment screw slots 25a to secure the plurality of selectively spaced and adjustable replacement finishing blade members 21a to the rotary surface finishing stabilizer or disk 61. Also, the plurality of selectively spaced and adjustable replacement blade members 21a further includes a trailing edge 27a, and an outer bent edge 28a. As shown in FIG. 5C, the plurality of selectively spaced and adjustable replacement finishing blade members 21a having the bent edge 28a selectively adjusted at or near the peripheral edge of the annular free-rotating bearing cover guide ring 56 to allow smooth finishing at wall structures, and electrical and plumbing stubs upon the annular free-rotating bearing cover guide ring 56 engaging or abutting against the wall structures, and electrical and plumbing stubs without causing any damage and markings thereto.

[0120] FIGS. 6A-6C are very similar to FIGS. 5A-5B, except for having annular self-lubricating bearing rail and spacer arrangements of FIGS. 6A-6C that are different from the annular self-lubricating bearing rail and spacer member 55 as shown in FIGS. 5A-5B. In FIGS. 6A and 6B, the self-lubricating bearing and spacer member is defined by an annular channel or groove 71 in the annular front face 53a of the annular non-rotary ring 53 that can receives at least a bearing rail with a plurality of spaced apart self-lubricating bearings 72, a plurality of bearing rails with a plurality of self-lubricating bearings 71 disposed therein, or a plurality of spaced apart self-lubricating bearings 71 snap-fitted within the annular channel or groove 71 in the annular front face 53a of the annular non-rotary ring 53. Also, the inner rear face 56i of the annular free-wheeling bearing cover guide ring 56 includes an annular channel or groove 73 that receives the outer portion of the self-lubricating bearings 71 that acts as a bearing rail and spacer member.

[0121] The exploded view of FIG. 6C shows a bearing rail and spacer member 55 with a plurality of spaced apart holes 55a disposed therein for receiving a self-lubricating bearing in each one of the plurality of spaced apart holes 55a. Also, the inner rear face 56i of the annular free-wheeling bearing cover guide ring 56 includes an annular channel or groove 73 that receives the outer portion of the self-lubricating bearings 55a that acts as a bearing rail and spacer member.

[0122] FIG. 7 illustrates a perspective view of a free-wheeling bearing guide ring assembly 80 connected to a prime mover 82 including an extension member 83 and an adapter 84 that is connected a shaft attachment passage 89 of an annular rotary surface finishing stabilizer or disk 51 with a plurality of spaced apart non-rotating arm members 52 and a plurality of integral connector screw tabs 52d secured to a rotary surface finishing disk or stabilizer 51 and an annular free-rotating bearing cover guide ring 56 fastened thereto for smoothly finishing a concrete or viscous material surface 86 around upstanding plumbing and/or electrical obstructions 85 disposed therein as the free-rotating bearing guide ring 56 abuts against the upstanding plumbing or electrical obstructions 85 during the concrete or viscous material finishing operation by a user 81. This free-wheeling bearing guide ring assembly 80 eliminates the user 81 from ever using labor intensive hand trowels to smoothly finish the concrete or viscous material surface 86.

[0123] FIG. 7A shows a cut-out sectional view of an unsmoothed area 87 around an upstanding plumbing or electrical obstruction 85 disposed within a concrete or viscous material surface 86 when labor intensive hand trowel devices or other power tools that are used and not the free-wheeling bearing guide ring assembly 80 of FIG. 7.

[0124] FIG. 7B shows a cut-out sectional view of a smoothed area 88 around the upstanding plumbing or electrical obstruction 85 disposed within a concrete or viscous material surface 86 that has been smoothly finished by the free-wheeling bearing guide ring assembly 80 of FIG. 7.

[0125] FIG. 7C illustrates a larger cut-out sectional view of the free-wheeling bearing guide ring assembly 80 connected to an adapter 84 that is connected to a shaft attachment passage 89 of an annular rotary finishing stabilizer or disk 51 with a plurality of spaced apart non-rotating arm members 52, a plurality of integral connector screw tabs 52d, and a screw member assembly 58, 58a (for a better view, see FIGS. 5A-5B and 6A-6C) secured to a rotary surface finishing stabilizer or disk 51 and an annular free-rotating bearing cover guide ring 56 fastened thereto for smoothly finishing a concrete or viscous material surface 86 around an upstanding plumbing or electrical obstruction 85 disposed therein as the free-rotating bearing guide ring 56 abuts against the upstanding plumbing or electrical obstructions 85 during the concrete or viscous material finishing operation. This free-wheeling bearing guide ring assembly 80 eliminates the user 81 of FIG. 7 from ever using labor intensive hand trowels to smoothly finish the concrete or viscous material surface 86.

[0126] FIG. 8A illustrates a perspective top view of a free-wheeling bearing guide ring assembly 50 having a first member as an annular non-rotary ring 53 with a plurality of spaced apart non-rotating arm members 52 with a forward end defining a clip fastening structure 52a, and a rear end defining a plurality of integral connector screw tabs 52d with a screw opening 52c (see FIGS. 5A, 5B, and 6A-6C) disposed therein for securing the plurality of spaced apart non-rotating arm members 52 to a rotary surface finishing disk 51 or stabilizer via a screw opening 58a (see FIGS. 5A, 5B, and 6A-6C) disposed therein by a screw member 58.

[0127] Further, the plurality of spaced apart non-rotating arm members 52 are angled upward from a bent point 52b at a front end of the integral connector tabs 52d to the clip fastening structure 52a integrally attached to the annular non-rotary ring 53. 53a represents the front face of the annular non-rotary ring 53.

[0128] FIG. 8B illustrates a perspective exploded top view of a free-wheeling bearing guide ring assembly 50 having a pair of semi-circular non-rotary rings 53 with a plurality of spaced apart non-rotating arm members 52 and a plurality of integral connector screw tabs 52d with a screw opening 52c (see FIGS. 5A, 5B, and 6A-6C) disposed therein the plurality of spaced apart non-rotating arm members 52 to a rotary surface finishing stabilizer or disk 51 via a screw opening 58a (see FIGS. 5A, 5B, and 6A-6C) disposed therein by a screw member 58. A pair of semi-circular pair free-wheeling bearing cover guide rings 56 fastened to the pair of semi-circular non-rotary rings 53 forming a pair of ends 52e that abuts one another to form a single a free-wheeling bearing guide ring assembly 50 (see FIGS. 5A-5B). Elements 51c represents the screw holes for securing the plurality of spaced apart replacement blades 21a of FIG. 5C. Note that any of the replacement blades as shown in FIGS. 2-4B can use screw holes 51c. The screw members 26, 26a, 37a, and 47a (see FIGS. 2-4B, 5C) include a fine pitch thread that extends to a certain position within the screw holes 51c to prevent concrete or viscous material from penetrating into the screw holes 51c to prevent wear or damage to the fine pitch threads of the screw members 26, 26a, 37a, and 47a that would otherwise cause the adjustable replacement blades 21, 21a, 36, and 46 to wobble or loosely move, whereby a smooth surface finishing would not be possible.

[0129] Note that the annular non-rotary ring 53, the annular bearing rail spacer member 55, the annular free-rotating bearing cover guide ring 56 and the ball bearings are preferably made from self-lubricating plastics, such as Teflon. Other self-lubricating material may be selected from other plastics such as Delrin, a non-metal, such as, carbon graphite, metals fabricated with various self-lubricating coatings, one such as molybdenum disulphide (MoS2) with PTFE could be used, if desired.

[0130] It is noted that the plurality of spaced apart non-rotating arm members 52 with the integral connector tabs 52d and the clip fastening structure 52a is formed from varied plastics as a single die-cast plastic molded member integral with the annular non-rotary ring 53, or this single molded member can be attached to the annular non-rotary ring 53 by varied bonding types selected from the group consisting of cements, adhesives, glues, welding, or soldering, if desired. Also, the plurality of spaced apart non-rotating arm members 52 with the integral connector tabs 52d and the clip fastening structure 52a integrally attached to the annular non-rotary ring 53 can be formed by metal stamping selected from the group consisting of aluminum alloys, brass alloys, copper alloys, nickel alloys, steel, and stainless steel, if desired. Further, the plurality of spaced apart non-rotating arm members 52 with the integral connector tabs 52d and the clip fastening structure 52a defining a single member could be attached to the annular non-rotary ring 53 by varied mechanical fastening means selected from the group consisting of screw type members, nut and bolt members, rivets, pins, anchors, and other specialized threaded fasteners, such as, captive threaded fasteners, stud threaded inserts, and threaded rods to name just a few. Other types of mechanical fastening means could be utilized, if desired.

[0131] While the foregoing written description of the invention enables one of ordinary skill in the art to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiment, method, and examples herein. There, the invention should not be limited by the above described embodiments, and examples, but by all embodiments and methods within the scope and spirit of the invention as claimed.