US20160169267A1

US20160169267A1 - Fastener with Loop or Hook

Info

Publication number: US20160169267A1
Application number: US14/797,423
Authority: US
Inventors: Jordan M Pool
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-12-10
Filing date: 2015-07-13
Publication date: 2016-06-16
Also published as: US20180258977A1; WO2016094318A1; US20180100536A1

Abstract

A threaded hook or eye loop has a tool receptacle at the end of the threaded shank with the hook or loop configured for rotary insertion with a power tool or hand tool that directly rotates the threaded shaft.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

The present application claims the benefit of priority to the U.S. Provisional Patent application filed on Dec. 10, 2014, having application Ser. No. 62/089,872, which is incorporated herein by reference.
The present application also claim the benefit of priority to the US Design patent application filed on Mar. 10, 2015, having application no. 29/520,036, which is incorporated herein by reference.

BACKGROUND OF INVENTION

The field of inventions is threaded axial fasteners, such as screws or bolts, having loops, hooks or eyelets opposite the threaded end that is intended for insertion into objects, and more particularly those more specifically suitable for insertion with rotary driving tools, such as power tools.
Threaded fasteners and supports that end with an open loop, which is a hook, or a closed loop, such as eye bolts and the like, is usually inserted by hand into a pilot hole or threaded insert.
U.S. Pat. No. 5,252,016, issued to Schmid et al. on Oct. 12, 1993, describes such fasteners that can be inserted by power tool by placing the driver receptacle on the outside of the loop or hook, opposite the end of the threaded shank. However, this solution also makes it more difficult to align the fastener shank normal to the wall, which is co-axial with the pilot hole, to start insertion. This is most difficult with heavy, bulky or cumbersome power tools, especially in awkward orientation, which make it more likely for the user or tradesman to tilt the tool off axis. When the power tool is more distal from the shank tip, the torque lever arm increases to urge the shank to tilt prior to insertion. Accordingly, even such an improved fastener is best started by hand instead of using a power tool.
It would be an advantage to have such a loop or hook type fastener that can be both started and fully inserted with the same power tool.
It would be a further advantage if such fastener devices can be inserted with one hand frees, to provide greater worker safety and increase efficiency.
The above and other objects, effects, features, and advantages of the present invention will become more apparent from the following description of the embodiments thereof taken in conjunction with the accompanying drawings

SUMMARY OF INVENTION

In the present invention, the first object is achieved by providing a fastener, the fastener comprising a threaded shank having a cylindrical axis with a first end and second end opposing the first end, the second end adapted to receive a rotating driver co-axially with the shank for rotating the shank about the cylindrical axis, an outward loop attached proximal to the second end of the shank, the outward loop first extending away from the shank by first progressing downward below a vertical extent of the shank and then extending upward and away from the shank to provide a portion above the vertical extent of the shank, the loop having a means for clearance of the outward axial extension of the shank.
A second aspect of the invention is characterized by the hook like fastener with a means for clearance of the outward extension of the shank being a bore through the portion of the outward loop that is opposite the cylindrical axis of the shank.
Another aspect of the invention is characterized by the hook like fastener wherein the portion of the outward loop above the vertical extent of the shank extends inward and downward to connect proximal to the second end of the shank to form an eyelet.
Another aspect of the invention is a fastener comprising a first eyelet loop having a rear surface that defines a first plane for making contact with a wall or support, a front surface opposing the rear surface and a first inner channel extending from the front surface to the rear surface thereof for receiving a threaded fastener through a central axis of the first inner channel, the central axis being orthogonal to the first plane, a first downward extending linear portion connected at a proximal end to the first eyelet, and having a distal end opposite the proximal end, a second upward extending linear portion connected at a proximal end to the distal end of the first downward extending linear portion, and having; a distal end opposing the proximal end thereof, and a second eyelet loop connected to a portion thereof to provide a second inner channel, wherein the first central axis passes through the second eyelet and further wherein the first upward and downward extending portions are in second common plane that includes the central axis of the first inner channel, in which the first plane and the second common plane are orthogonal.
Another aspect of the invention is such a fastener also comprising a third extending linear portion having a proximal end connected to the second eyelet loop that extends rearward above the first eyelet, second eyelet and the second upward extending linear portion.
Another aspect of the invention is such a fastener wherein the second eyelet is connected to bisect the second upward extending linear portion to subdivide it into a lower sub-portion below the first eyelet and an upper sub-portion above the first eyelet.
Another aspect of the invention is such a fastener further comprising a third extending linear that is connected at a proximal end to the second upward extending linear portion and has an opposing distal end connected to the first eyelet.
Another aspect of the invention is such a fastener wherein the first, second and third linear portions form a continuous ring.
Another aspect of the invention is such a fastener wherein the first eyelet has an outer diameter and the second eyelet has an inner diameter that is great then the out diameter of the first eyelet.
Another aspect of the invention is such a fastener further comprising a screw attached to the first eyelet.
Another aspect of the invention is such a fastener wherein the first and second eyelet are formed from a common linear member that is bent into mirror image halves at the first eyelet.
Another aspect of the invention is such a fastener wherein at least one of the first downward and second upward linear member are form by attaching by fusing adjacent portion of the common linear member.
Another aspect of the invention is such a fastener wherein one or more of the first and second linear extending portion is comprised of at least one of a straight linear portion and a curvilinear portion.
Another aspect of the invention is such a fastener wherein one or more of the first, second and third linear extending portions is comprised of at least one of a straight linear portion and a curvilinear portion.
Another aspect of the invention is an eye bolt fastener comprising a first eyelet loop having a rear surface that defines a first plane for making contact with a wall or support, a font surface opposing the rear surface and a first inner channel extending from the front surface to the rear surface thereof for receiving a threaded fastener through a central axis of the first inner channel, the central axis being orthogonal to the first plane, a primary loop connected to the first eyelet, and a second eyelet loop defining a second inner channel, wherein the first central axis passes through the second eyelet and further wherein the primary loop is in second common plane that includes the central axis of the first inner channel, in which the first plane and the second common plane are orthogonal.
Another aspect of the invention is a wall or ceiling mountable fastener comprising a first eyelet loop having a rear surface that defines a first plane for making contact with a wall or support, a front surface opposing the rear surface and a first inner channel extending from the front surface to the rear surface thereof for receiving a threaded fastener through a central axis of the first inner channel, the central axis being orthogonal to the first plane, a first downward extending linear portion connected at a proximal end to the first eyelet, and having a distal end opposite the proximal end, a second upward extending linear portion connected at a proximal end to the distal end of the first downward extending linear portion, and having; a distal end opposing the proximal end that is disposed above the first eyelet, wherein at least the sub-portion of the second upward extending linear portion that is at the level of first eyelet does not intersect the first central axis.
Another aspect of the invention is such a fastener further comprising a third extending linear portion that is attached at a proximal end to the distal end of the second upward extending portion and has a distal end opposite the proximal end thereof the is attached the first eyelet.
Another aspect of the invention is such a fastener wherein the first, second and third linear portions form a continuous ring.
Another aspect of the invention is such a fastener wherein the first, second and third linear portions form a continuous ring that is disposed in a second common plane in which the second common plane is disposed at an oblique angle to the first plane.
Another aspect of the invention is such a fastener wherein one or more of the first, second and third linear portion have a curvilinear segment and a linear segment.
Another aspect of the invention is such a fastener wherein one or more of the first, second and third linear portion have a curvilinear segment and a linear segment.
Another aspect of the invention is such a fastener further comprising a threaded shaft filling the first eyelet loop wherein a head of the shaft has a means for receiving a rotary driver tool.
Another aspect of the invention is such a fastener wherein the threaded shaft is removable from the first eyelet.
Another aspect of the invention is such a fastener wherein the threaded shaft is attached to and an integral part of the first eyelet and fills the first channel so that the primary axis of the threaded shaft defines the central axis.
Another aspect of the invention is such a fastener wherein the threaded shaft is attached to the first eyelet with a temporary adhesive so that the primary axis of the threaded shaft defines the central axis.
The above and other objects, effects, features, and advantages of the present invention will become more apparent from the following description of the embodiments thereof taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1A is a cross-sectional elevation of a first embodiment of the invention, whereas FIG. 1B is top plan view thereof and FIG. 1C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 2A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 2B is top plan view thereof and FIG. 2C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 3A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 3B is top plan view thereof and FIG. 3C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 4A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 4B is top plan view thereof and FIG. 4C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 5A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 5B is top plan view thereof and FIG. 5C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 6A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 6B is top plan view thereof and FIG. 6C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 7A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 7B is top plan view thereof and FIG. 7C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 8A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 8B is top plan view thereof and FIG. 8C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member.

FIG. 9A is a cross-sectional elevation of another embodiment of the invention, whereas FIG. 9B is top plan view thereof and FIG. 9C is a rear elevation view thereof showing the fastener device as viewed from the outside of a receiving member, whereas FIG. 9D is an expanded view of the circled portion of FIG.

9A.

FIG. 10 is an exterior elevation view of a driver tool about to insert the fastener of the FIG. 1A-C into a wall or other supporting member.

FIG. 11 is a perspective view of another embodiment of the invention in which the fastener is fabricated from one or more elongated members with circular cross-sections that are attached to a screw.

FIG. 12 is a perspective view of another embodiment of the invention in which the fastener is a hook fabricated from one or more elongated members with circular cross-sections that receives a screw in the eyelet portion thereof.

FIG. 13A is a perspective view of another embodiment of the invention in which the fastener is a hook and FIG. 13B is a cross-sectional elevation view thereof and FIG. 13C is a lower side view that includes the section shown at line C-C in FIG. 13B.

FIG. 14 is a cross-sectional elevation view of another embodiment of the invention in which an adhesive initially hold the screw in the eyelet portion.

DETAILED DESCRIPTION

Referring to FIGS. 1A through 14, wherein like reference numerals refer to like components in the various views, there is illustrated therein a new and improved threaded fastener with loop or hook, generally denominated 100 herein.
In accordance with the present invention the threaded fastener with loop or hook 100 comprises a threaded shank 110 configured for insertion into a work piece at the distal end 111 a, with a hook or loop 120 attached toward or at the proximal end 111 b. The threaded hook or eye loop 100 has a tool receptacle 130 at the end 111 b of the threaded shank 110 with the hook or loop configured for rotary insertion with a power tool or hand tool that directly rotates the threaded shaft or shank 110. The hook or loop 120 is configured so that the tool receiving member 130 at the proximal end can 111 b can be accessed by the working end 11 of a linear drive tool 10, which is connected outside the loop 120. The loop 120 forms a hook when it is open in the top or distal end 121, in which it does not reconnect or couple at the opposing end to the shank 110. FIG. 10 illustrates one embodiment of the fastener 100, from FIG. 1A-C, being inserted with the driving tool 10 in which the working end 11 thereof engage the tool receiving member 130 for rotating the fastener 100 to advance end 111 a into the work piece to the left.
The loop 120 is configured in the various embodiments with means for clearance of a tool to axially rotate the shank 110. These configurations, explained in greater detail below, allow the insertion and driving of threaded hooks and eye bolts with a power tool. They also facilitate the alignment of the driving tool and threaded fastener 100 normal to the attachment surface. In selected embodiments, the threaded portion of the fastener 100 is stabilized by the driving tool. In such an embodiment, the bore 135 in the loop 120 extends around and maintains alignment of the driving tool working end parallel to the bore 130 walls and the central axis 112 of the threaded shank 110.
In the case of simple linear drive tool, such a screw drivers and electric screw drivers, a conventional hook or loop would preclude the drive shaft of the tool from reaching the tool receiving portion 130 and also being aligned with the axis 112 of the shank 110, as the shank axis 112 and tool axis need to be co-linear for rotating the shank about its axis.
In the various embodiment of the instant invention this is overcome in two alternative methods in which the hook or loop 120 either is offset sideways to allow driver access, or has a bore 135 to receive the driver.
The outward loop 120 extends at least below the lower vertical extent (reference line 114 in FIG. 1C) of the shank 110 as it extends away from the shank 114. This provides a large loop 120 with significant support or holding capacity and strength.
In an alternative embodiment of FIGS. 2, 5, 8, 9 and 11, the loop 120 is connected to the shank 110 between the first end 111 a and the second end 111 b, to leave an extending portion 115 beyond the first connection of the loop 120. Thus, portion 115 extends toward an opposing end of the loop 120.
In some embodiments (FIGS. 5, 7 and 9A-C) the extending portion 115 of the shank 110 has a polygonal opening 116 and the depth of the polygonal opening 116 extends no further than the connection 117 of the loop 120 to the shank 110. Alternatively, as shown in FIG. 2 the extending portion 115 can have a bolt head 118 for receiving a driving tool. Limiting the initiation of the loop 120 until beyond the opening 116 avoids the loss of material to the opening or recess 130 from weakening the strength of the loop 120, or provides a stronger loop 120 for the amount of material used. In other words, an opening placed within the path between the shank 110 and the loop 120 reduces the cross-section of the stress bearing portion of the fastener 100 when an object is supported by the loop 120.
As shown in the embodiment of FIG. 8A-C, 9A-D and 12, and more particularly the expanded portion of the FIG. 9A in FIG. 9D, the loop 120 and shank 110 are optionally separable. In these embodiments, threaded shank 110 has an annular recess 113 proximal to the second end 111 b with the recess 113 having a first diameter D1, and the portions of the shank 110 adjacent the annular recess 113 each having a third diameter D3 that is larger than the first diameter. The loop 120 has a channel 125 with a second diameter D2 greater than the first diameter and less than the third diameter. Hence, the annular recess 113 of the shank 110 is retained within the channel 125.
A means for clearing the axial extension of the shank 110 is the bore 135 in the loop 120 that is disposed at the intersection of an outward extension from the primary axis 112. In the embodiments in which the shank 110 and loop 120 are separable, the channel 125 and bore 130 would co-align to a common cylindrical axis 112 with the shank 110. An alternative means for clearing the axial extension of the shank 110 is shown in FIG. 3A-C and 4A-C, in which the fastener 110 deploys an oblique angular displacement of the portion of the loop 120 that is opposite the axial extension of the shank 110 toward the distal portion of the loop 120. The angular displacement can be defined with respect to a reference plane 401 containing the outward portion of the loop 112 which is at an oblique angle with respect to the shank axis 112.
In order to maintain maximum strength of the loop 120, in the more preferred embodiment the portion of the loop 120 having the bore 135 bulges outward to maintain the same cross-section area as the portions of the loop 120 between the bore 135 and the shank 110
In FIG. 3A-C, the loop 120 is open at the top, but avoids interfering with the driver hole by extending laterally after reaching a low point, and then on rising extends laterally in the opposing direction before rising above tool end 130. Hence, loop 120 is composed of 3 attached segments 120 a, 120 b and 120 c, which terminates in end 121.
In FIG. 4A-C, the loop 120 is closed, but avoids interfering with the driver hole 130 by extending laterally after reaching a low point, and then rising as it extends laterally in the opposing direction until above shank end 111 b, but the extends downward to connect just forward of shank end 111 b.
The loop 120 is optionally open or closed, as shown in FIG. 4A-C, 5A-C and 6A-C. It should be appreciated that to form a hook of reasonable proportion to support or hold items, the open loop 120 preferably extends above the shank 110 after extending below it.
In the embodiment of FIG. 11 the fastener is fabricated from one or more elongated members with circular cross-sections are bent or forged to form mirror image mating pairs 121 and 121′ of split hook shaped preform that are attached to the threaded shank 110 after forming. The portion of the loop 120 having the bore 135 is defined by convex outward bow 121/121′c of each mating pair 121 and 121′ between the proximal 121/121′a and distal ends 121/121 b. The portion of the each elongated member adjacent proximal ends 121/121′a are bent to a semi-circular shape for attachment to the shank 111 just below the bolt head 118, where they are preferably joined thereto by at least one weld 128. Additional welds 128′ and 128″ join the mating halves 121 and 121′ at the distal ends 121/121′b and between the proximal end 121/121′a and the bore 135 defined by the gap between arced segment 121 c and 121′c. The shank head 118 having the Philips style receiving driver slot extends beyond the proximal end connection of the completed loop 120 to the shank 110 circa weld 128.
FIG. 12 is a perspective view of another embodiment of the invention in which the fastener 100 loop is similarly fabricated to the embodiment of FIG. 11, that is from one or more elongated members, which preferably have a circular cross-sections. Fastener 100 in FIG. 12 then receives a screw 110 in the eyelet or channel 125. However, when 2 preforms are used they need not be welded to the screw or shank below the head 118, but rather welded to each other at 128″ to form an eyelet 125 below the shank head 118. The eyelet 125 can also be formed by bending a single wire or deformable elongated member around the shank 110, with the portions on opposing sides of the bend then being deformed to form mirror image half 121/121′ as in FIG. 11, which are similar joined by welds 128′ and 128″.
In the embodiment of FIG. 13A-C the fastener 100 has the same general shape as the embodiments of FIGS. 11 and 12, but is formed by molding or casting. The screw 110 is separate and hence can be removed from the eyelet or channel 125. More preferably, as shown in FIG. 14, the screw 110 is attached directly or proximal the eyelet or bore 125, such as at lower edge 125 b, with a weak adhesive material 1401 so it does not fall out during initially placement during use. When the fastener 100 is initially attached with a power tool the entire fastener 100 will first spin as the screw 110 is rotated by the power tool driver. However, when the upward facing eyelet edge 125 a reaches and is then further urged against the wall or ceiling surface the screw 110 will then break free of this temporary adhesive 1401 and continue to rotate but the loop portion 120 will cease to rotate. This permits the full tightening of the screw 110 in the wall or ceiling, but the angular or rotation orientation of the loop 120 can still be adjusted to a final position by hand before fully inserting the screw 110. The adhesive is optionally a water or solvent based organic polymer type adhesive such a Locktite® brand resins, or is a hot melt adhesive. The adhesive 1401 need not be placed around the entire periphery of the screw head, the eyelet 125 or a particular eyelet surface, such as 125 a or 125 b. It should be apparent that stronger adhesives can be deployed when it is desired to continuously rotate the screw 110 and loop 120 together. The assembly with an adhesive simplified fabrication by allowing different manufacturing methods for each component, and the mixing of different screws depending on the nature of the wall or ceiling surface the device 100 is to be attached to.
The loop in this embodiment (FIG. 13A-C and FIG. 14) the loop 120 has several portions, with a flat portion at bore 135 and eyelet or channel opening 125, and curved and optional some flat portion there between. Preferably loop 120 has a curvilinear loop portion 122 that extends between eyelet 125 for receiving the threaded shank 111 and the planar ring structure that defines the bore 135 for receiving the driver of the bolt or shank head 118. The portions of the loop 120 adjacent to bore 135 and on opposing sides thereof are co-planar with the planar ring structure that defines the bore 135 or second eyelet. In this preferred embodiment a linear segment 124 extends from the planar ring structure about bore 135 to the end of the hook 121.
It should be appreciated from these embodiment that the loop 120 can have multiple segments of which some or all are at least part curvilinear in shape or polygonal shaped. For example, in FIG. 3A-C and FIG. 4A-C, portion of the loop 1120 are curvilinear proximal to the connected shank end 111 b, while the portion opposite the shank axis 112 have a polygonal shape.
It should also be appreciated from the various embodiments described above and illustrated herein that the second end 111 b of the shank 110 can have a recess 130 to accept any type driver end fitting, such as a Philips head drivers, a “TORX”® drivers, square driver or a hexagonal driver, as well as an external bolt head in place of the recess 130. The bolt head can also be combined with a driver receiving recess 130. Hence the head of the threaded shank or shaft can have various means for receiving rotary driving tools.
It should be understood that the inclusion of various optional features and aspects of the invention in one embodiment does not preclude their use in other and additional embodiments of the invention. Hence, while the invention has been described in connection with various preferred embodiments, it is not intended to limit the scope of the invention to the particular form set forth, but on the contrary, it is intended to cover such alternatives, modifications, and equivalents as may be within the spirit and scope of the invention as defined by the appended claims.

Claims

1-37) (canceled)

38) A fastener comprising:

a. a first eyelet loop having a rear surface that defines a first plane for making contact with a wall or support, a front surface opposing the rear surface and a first inner channel extending from the front surface to the rear surface thereof for receiving a threaded fastener through a central axis of the first inner channel, the central axis being orthogonal to the first plane,

b. a first downward extending portion connected at a proximal end thereof to the first eyelet, and having a distal end opposite the proximal end,

c. a second upward extending portion connected at a proximal end thereof to the distal end of the first downward extending linear portion, and having;

i. a distal end opposing the proximal end thereof, and

ii. a second eyelet loop connected to a portion thereof to provide a second inner channel, wherein the first central axis passes through the second eyelet and further wherein the first upward and downward extending portions are in second common plane that includes the central axis of the first inner channel, in which the first plane and the second common plane are orthogonal,

d. wherein the portions of the fasteners between the first eyelet and the second eyelet are narrower than an outer diameter of at least one of the first eyelet and the second eyelets.

39) The fastener according to claim 38 wherein the portions of the fasteners between the first eyelet and the second eyelet are narrower than an outer diameter of both the first eyelet and the second eyelet.

40) The fastener according to claim 38 and further comprising a third extending portion having a proximal end connected to the second eyelet loop that extends rearward above the first eyelet, second eyelet and the second upward extending portion.

41) The fastener according to claim 40 wherein the first and second eyelet are formed from a common linear member that is bent into mirror image halves at the first eyelet.

42) The fastener according to claim 40 wherein at least one of the first downward and second upward elongated member are formed by fusing adjacent portions of the common linear member.

43) The fastener according to claim 38 further comprising a threaded shaft that extends rearward through the first eyelet, the shaft having a distal portion with a head portion adapted for receiving a driving tool that is disposed between the first and second eyelet, the head portion being wider than the first inner channel of the first eyelet.

44) The fastener according to claim 43 wherein the threaded shaft is permanently attached to the first eyelet to dispose the head thereof abutting the first eyelet so that the primary axis of the threaded shaft defines the central axis.

45) The fastener according to claim 43 wherein the threaded shaft is attached to the first eyelet with a temporary adhesive to dispose the head thereof abutting the first eyelet so that the primary axis of the threaded shaft defines the central axis.

46) The fastener according to claim 43 wherein the head portion is narrower than the diameter of the second eyelet loop.

47) A fastener comprising:

i. a distal end opposing the proximal end thereof, and

d. a threaded shaft that extends rearward through the first eyelet, the shaft having a distal portion with a head portion adapted for receiving a driving tool that is disposed between the first and second eyelet, the head portion being wider than the first inner channel of the first eyelet.

48) The fastener according to claim 47 wherein the threaded shaft is permanently attached to the first eyelet to dispose the head thereof abutting the first eyelet so that the primary axis of the threaded shaft defines the central axis.

49) The fastener according to claim 47 wherein the threaded shaft is attached to the first eyelet with a temporary adhesive to dispose the head thereof abutting the first eyelet so that the primary axis of the threaded shaft defines the central axis.

50) The fastener according to claim 49 wherein the head portion is narrower than the diameter of the second eyelet loop.

51) The fastener according to claim 47 and further comprising a third extending portion having a proximal end connected to the second eyelet loop that extends rearward above the first eyelet, second eyelet and the second upward extending portion.

52) The fastener according to claim 47 wherein the first and second eyelet are formed from a common linear member that is bent into mirror image halves at the first eyelet.

53) The fastener according to claim 51 wherein at least one of the first downward and second upward elongated member are formed by fusing adjacent portions of the common linear member.