DEVICE FALL ARREST SAFETY NET

Abstract

A fall arrest safety net assembly including a bag constructed from one or more wire strands which are turned back upon themselves to form loop members and a plurality of eyes. An elongate line extends through the eyes spaced about the mouth of the bag. The bag includes a slit that separates a first loop member from an adjacent second loop member. The second loop member includes a toggle that is sized to selectively prevent the toggle from exiting an accepting space opening.

Description

CROSS-REFERENCE TO RELATED APPLICATION

This Application is a continuation of U.S. application Ser. No. 13/987,804, filed Sep. 4, 2013, which is a continuation-in-part of U.S. application Ser. No. 12/460,245 filed Jul. 16, 2009, now U.S. Pat. No. 8,714,308, issued May 6, 2014, which are herein incorporated by reference in their entirety.

TECHNICAL FIELD

The present invention relates to a safety net having an attachment device for securing to a construction element particularly for use as a fall arrest apparatus.

BACKGROUND

When working at elevated positions, in order to protect anyone below the working position, a safety apparatus should be provided to arrest a fall of debris. Typically a safety net may be suspended just below the working height fastened, for example, to free standing columns or to fixtures mounted to a wall.

However for permanent fall arrest protection, for instance in engineering facilities having overhead fittings, maintaining a suspended safety net to span the entire overhead area may not be appropriate due to the construction of the facility, the working height, the obstruction it would cause or its cost. There is therefore a need for an improved safety apparatus which addresses these drawbacks, is relatively inexpensive to manufacture and easy to install. It is an object of the present invention to address this need or, more generally, to provide an improved safety net.

SUMMARY

In some embodiments a fall arrest safety net assembly includes a bag constructed from one or more wire strands which are turned back upon themselves to form loop members and a plurality of eyes. An elongate line extends through the eyes spaced about the mouth of the bag. The bag includes a slit that separates a first loop member from an adjacent second loop member. The second loop member includes a toggle that is sized to selectively prevent the toggle from exiting an accepting space opening.

While multiple embodiments are disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from the following detailed description, which shows and describes illustrative embodiments of the invention. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not restrictive.

DISCLOSURE OF THE INVENTION

According to one aspect of the present invention there is provided a safety net assembly comprising: a bag constructed of a wire mesh strand, the bag having an open mouth, the bag including a plurality of eyes integral with the wire mesh and spaced circumferentially about the mouth; an elongate line having a first end and a second end, a first line portion and a second line portion of the line being disposed adjacent the first end and the second end respectively, an portion of the line located between the first line portion and the second line portion, and a choker fitting having a spaced apart upper surface and lower surface through which a plurality of apertures or openings extend, and an end fixture on the choker fitting, wherein the first portion of the line is removably connected to the choker fitting, the first end of the line being removably connected to the end fixture of the choker fitting, the intermediate portion of the line extending through the eyes for drawing the mouth closed, and the second portion of the line extending through at least one of the apertures or openings in the choker fitting.

The first portion of the line provides an elongate flexible member, and while the first portion of the line may be continuous, it may alternatively be interrupted by fasteners, links, or the like, connected to adjacent ends of the line and which can be separated so that the ring may be broken as needed in some installations of the net (which are discussed below).

Preferably the intermediate portion extends through the plurality of apertures or openings in the choker fitting so that a loop in the line protrudes from each of the upper surface and lower surface of the choker fitting. It will be apparent that two apertures or openings will be sufficient for connection in this manner, however most preferably the plurality of apertures or openings include three apertures or openings through which the line passes sequentially.

Preferably the line further comprises a terminal eye formed on each of the first end and the second end of the line. The assembly preferably further comprises a spring loaded hook type fastener received in the terminal eye at each of the first end and the second end of the line, the hook type fastener on the first end of the line providing the removable connection to the end fixture of the choker fitting. The spring loaded hook type fastener on the second end of the line may be utilized for connection to any desired structure.

Preferably the upper surface and the lower surface of the choker fitting are bounded by a first pair of spaced apart side surfaces and a second pair of spaced apart side surfaces which define a region therebetween and the plurality of apertures or openings are within the region of the choker fitting. The choker fitting may be any desired geometric shape as desired for particular applications such as square, rectangular or the like. The end fixture on the choker comprises a end fitting aperture spaced extending through the choker fitting from the upper surface to the lower surface and the end fitting is spaced from the plurality of apertures The hook type fastener on the first end of the line is removably connectable to the first end fitting aperture. Thus, by pulling on one or both of the loops, the circumference of the mouth is decreased to allow a desired fitting configuration.

Preferably the wire mesh bag is formed from a length of wire strand with fastenings joining portions of the length of wire strand, the length of wire extending from the closed end toward the mouth and being turned back upon itself to form the eyes at the mouth and corresponding eyes at the closed end, each eye at the mouth being fixed by a respective one of said fastenings to the adjacent eye on either side thereof, and each eye at the closed end being fixed by a respective one of said fastenings to the adjacent eye on either side thereof to form the bag.

The fastenings that join two portions of the length of wire and are preferably all of like type, most preferably being ferrules which are crimped or molded in place.

Preferably the fastenings joining the eyes at the closed end are more closely spaced along the length of wire than the fastenings joining the eyes at the mouth.

In another aspect the invention provides a method of securing apparatus mounted overhead upon a construction member, the method comprising: [0014] providing a safety net assembly substantially as described above; introducing the apparatus through the mouth so as to at least partially enclose the apparatus in the wire mesh bag; manipulating the choker fitting and line to close the mouth; looping the second portion about the construction member, and connecting the first portion and the second end by means of a hook fastener.

The thickness or gauge of the wire mesh strand may be on the order of 0.5 to 1.0 millimeters and the thickness or gauge of the line may be on the order of 1.5 to 2.00 millimeters.

The present invention also may also include one or more wire mesh extent adjustments. Each of the wire mesh adjustments comprise a short length of auxiliary wire having a first end and a second end and the first end and the second end are secured to the wire mesh strand at, for example, a first section thereof thereby leaving a wire mesh strand accepting space between the auxiliary wire and the wire mesh strand. A second section of the wire mesh strand is passed through the wire mesh strand accepting space and a toggle is coupled to the second section of the wire mesh strand. The toggle is sized so as to prevent the second section from exiting the wire mesh strand accepting space. Thus, the extent of the wire mesh may be reduced by pulling on the second section of the wire mesh strand so that more of the second section extends through the wire mesh strand accepting space thereby reducing the extent of the wire mesh. The auxiliary wire may be the same thickness or gauge as the wire mesh strand and the length thereof may be on the order of five to ten centimeter though heavier or lighter gauges and longer or shorter lengths of the auxiliary wire may be utilized as desired for particular applications.

The present invention may also include a pair of spaced apart locator tabs. Each of the locator tabs comprises a disc coupled to the wire mesh strand preferably at opposite locations thereon. The locator discs provide a visual indication of the extent of the wire mash bag thereby allowing for proper installation of the wire mesh bag.

Thus, this invention provides a safety net assembly which is effective and efficient in operational use, and which has an overall simple design which minimizes manufacturing costs and maximizes performance.

BRIEF DESCRIPTION OF THE DRAWINGS

Preferred forms of the present invention will now be described by way of example with reference to the accompanying drawings, wherein similar reference characters refer to similar elements and in which:

FIG. 1 is pictorial view of a first exemplary embodiment of the safety net assembly of the invention in a collapsed state ready to receive an item of value;

FIG. 2 is a plan view of a web of mesh from which the safety net assembly FIG. 1 is formed;

FIG. 3 is a plan view of the safety net assembly of FIG. 1;

FIGS. 4, 5 and 6 are orthogonal end, front and side views respectively of the choker fitting of the safety net assembly of FIG. 1;

FIG. 7 is an exploded pictorial view of a second exemplary embodiment of the safety net assembly of the invention;

FIG. 8 is an exploded pictorial view of a third exemplary embodiment of the safety net assembly of the invention;

FIG. 9 is schematic pictorial view of a fourth exemplary embodiment of the safety net of the invention;

FIG. 10 is a perspective view of an alternative embodiment of the safety net assembly of the invention installed in use;

FIGS. 11, 12 and 13 illustrate the structure for forming a wire mesh extent adjustment;

FIGS. 14. 15 and 16 illustrate a toggle useful in the practice of the present invention;

FIGS. 17, 18, 19 and 20 illustrate a locator disc useful in the practice of the present invention;

FIGS. 21 and 22 illustrates a choker fitting connection useful in the practice of the present invention; and,

FIGS. 23, 24 and 25 illustrate various applications of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIGS. 1 and 2 of the drawing, a first embodiment of a safety net assembly includes a wire mesh bag 1 comprised of a wire mesh strand having a narrow closed end 2 and a broader opposing open mouth 3 in which an opening 4 is provided for receiving an apparatus to be secured, such as a light fitting 50 (shown in FIG. 7) mounted overhead on a construction member such as a beam 51. A line 33 passes in a ring through the eyes 12 of the mouth 3 and cooperates with a choker fitting 52 to draw together the eyes 12 to close the opening 4. A second end of the line 33 is secured to a structure such as the beam 51 to secure the assembly in place.

In the first embodiment illustrated the mesh is made from a length of wire strand 5 which may be continuous (i.e. a single length) or discontinuous (for instance, including end-to-end joints) and which provides a degree of flexibility and resilience to the bag 1, allowing it to be expanded in the transverse direction to accommodate apparatus of varying size, while being readily collapsible. The bag 1 is made from a planar mesh 10, shown in FIG. 2, which is curved or folded about a longitudinal axis 8; the transversely opposing edges 6, 7 of the mesh 10 are then joined to produce the substantially tapered bag-like form (shown in FIG. 1 in its collapsed or relaxed state).

The wire mesh 10 is a non-woven strand type in which portions of the length of wire 5 are joined by fastenings in the form of ferrules 9a. 9b, 9c, 9d at nodes of the mesh. The length of wire 5 extends generally longitudinally and is turned back upon itself and joined by ferrules 9c to form eyes 11 at the first edge 23 of the mesh 10, and by ferrules 9d to form eyes 12 at the longitudinally opposing second edge 22 of the mesh 10. Fastenings in the form of ferrules 9b join the adjacent eyes 12 along the second edge 22 and ferrules 9a join the adjacent eyes 11 along the along the first edge 23.

The mesh 10 may be conveniently manufactured by winding the length of wire 5 between pegs 27 spaced apart in two parallel lines, the lines being spaced apart in the longitudinal direction (relative to the mesh 10). The length of wire 5 is wound about the pegs in a zigzag pattern, alternating in direction when it is turned back upon itself around each peg 27. To then form the bag 1 from the mesh 10 of FIG. 2, the mesh 10 is removed from the pegs 27 curved about the longitudinal axis 8. Portions 14 and 15 of the outermost first edge eyes 11 are then joined by a ferrule (not shown) such that each eye 11 is fixed by a ferrule to the adjacent eye on either side thereof. In like manner the ends 16, 17 of the length of wire 5 are joined by a ferrule (not shown) such that each eye 12 along the second edge 22 is fixed by a ferrule to the adjacent eye on either side thereof. In addition a further ferrule (not shown) joins portions 18 and 19 on opposing transverse edges of the mesh 10 to form the substantially axisymetrical bag 1. As best seen in FIG. 3, all the eyes 11 are joined in a first ring 29 to form a closed end of the bag 1. All the eyes 12 are joined in a second ring 30 which forms the opening 4.

To produce a bag 1 shaped to taper outwardly from the closed end 2 toward the open mouth 3, the transverse dimension of the second edge 22 exceeds that of the first edge 23. To achieve this, the eyes 12 are larger than the eyes 11 and the ferrules 9a joining the eyes 11 are spaced more closely apart (by dimension 24 measured along the length of wire 5) than the ferrules 9b joining the eyes 12 on the second edge 22 (which are spaced by dimension 25 measured along the length of wire 5).

The choker fitting 52 shown in detail in FIGS. 4-6, is formed from a substantially rectangular stainless steel sheet having an upper surface 53 and a lower surface 54. On one side of the choker fitting 52 is an end fixture 55, while on the opposite side are three circular apertures or openings 56, 57, 58 extending through the choker fitting 52 from the upper surface 53 to the lower surface 54. The choker fitting 52 is bounded by a first pair of spaced apart edge surfaces 59a and 59b and a second pair of edge surfaces 60a and 60b which define a choker fitting region 52′ therebetween. The apertures or openings 56, 57 and 58 are sized to receive the line 33. A first line end fixture 55 is provided on the choker fitting 52 and the first line end fixture 55 in the preferred embodiment is first line end receiving aperture 65 extending through the choker fitting 52 from the upper surface 53 to the lower surface 54 and the first line receiving aperture is spaced from the apertures 56, 57 and 58.

If desired, on the front face 53 are textual indicia 80 including an “Expiry date” marking 81 located adjacent a blank area 82 where a date can be permanently marked, by engraving, etching, stamping of the like, to notify users of the end of the working life of the product.

The line 33 has a first end 70 which is removably connected to the choker fitting 52 by a end hook fastener 70′ mounted on a terminal eye 73 and the hook fastener 70′ is coupled to the line receiving aperture 65. A second end 72 of the line 33 opposite the first end 70 includes a terminal eye 73′ similar to the terminal eye 73 and a second end hook fastener 70″ connected to the terminal eye 73′. The first end hook fastener 70′ and the second end hook fastener 70″ may D ring type fasteners as shown on FIGS. 7 and 8 or may be carabineer type fasteners as shown on FIGS. 21 and 22 though other types of fasteners suitable for the purpose may be utilized in particular applications as desired.

A first portion 74 of the line 33 adjacent the first end 70 extends from the end fixture 55 in a ring through the eyes 12 for drawing the mouth 3 closed. A second portion 78 of the line 33 extends from the choker fitting 52 to the second end 72. An intermediate portion 75 of the line 33 is located between the first line portion 74 and second line portion 78, and passes sequentially through the openings 56, 57, 58 in the choker fitting. As shown in dashed outline in FIG. 6, a first loop 76 of the line extends through the openings 57, 58 to protrude from of the upper surface 53, while a second loop 77 extending between openings 56 and 57 protrudes from the lower surface 54.

The line 33 and the length of the wire strand of the mesh bag 1 are preferably twisted stainless steel wire cables for corrosion resistance. The wire mesh may be formed of wire strand having a gage or thickness in the range of 0.5 millimeters to 1.0 millimeters and wire 33 may be formed of a wire having a gage or thickness of 1.5 millimeters to 2.0 millimeters though larger or smaller gauges may be selected for the wire mesh strand and the wire 33 as desired for particular applications. The other components, such as the ferrules 9a, 9b, 9c, 9d and the hook fasteners 70′ and 70″ are also formed of stainless steel.

FIG. 7 shows an exploded view of a second embodiment of the safety net assembly employing the line 33 and choker 52 of the first embodiment, but wherein the bag 101 is assembled from a folded main panel 90 and two like end panels 91. The panels 90, 91 are each formed of a flexible wire mesh, and may each be formed initially as a planar mesh from a single of wire joined at nodes of the mesh by ferrules, or molded beads etc. The main panel 90 is a rectangular panel folded in a curve and includes rows of eyes 92, 93 along longitudinally opposite transverse edges which, when the panel 90 is folded in a curve as shown are brought together to form opposing sides of the mouth 4, the curved central section of panel 90 forming the closed end 2. The panels 91 have a row of eyes 94 along one edge and are shaped with an arcuate opposing edge complementary to the form of the panel 90. Each end panels 90 is fixed about its peripheral edge, as by ferules or the like, to a long edge of the panel 91, such that the rows of eyes 92, 93, 94 are generally coplanar, the eyes being spaced about the periphery of the mouth 4. In like manner to the first embodiment, the line 33 passes from the choker fitting 52 through the eyes 92, 93, 94 and back to the choker fitting 52, for drawing the mouth 3 of the bag 101 closed.

A third embodiment of the invention is shown in FIG. 8 and includes panels 90, 91, 111 each formed from a flexible wire mesh. The panels 111, like the panels 91 the second embodiment, have a row of eyes 94 along one edge and are shaped with an arcuate opposing edge complementary to the form of the panel 90. The panel 111 further includes a slit 112 in the fabric of the mesh (where adjacent wire loops are disconnected). The slit 112 extends longitudinally down from the row of eyes 94 to an intermediate position in the panel. The end panel 111 is otherwise of like construction to the panels 91 and is fixed about its peripheral edge to a long edge of the panel 91, in like manner to the second embodiment. The ring-shaped first portion 74 has a fastener 110 connected in the line 33, allowing the ring to be opened and closed. As shown, the fastener 110 may be a carabineer joining permanent eyes formed in the first portion.

In FIGS. 7 and 8, the first end hook fastener 70′ is shown disconnected from the aperture 65 in the choke 52 for clarity and is shown connected to the aperture 65 in choke 52 in FIGS. 21 and 22. In FIG. 22, the intermediate portion 78 of the wire 33 is shown wrapped and around the 51 and the second end hook fastener such as the carabineer 70″ is connected to the wire 33 as indicated at 77 in FIG. 22. and in FIG. 1.

In a fourth embodiment the net of the invention, shown in FIG. 9, is formed from a single generally rectangular panel of flexible wire mesh. Like the second and third embodiments, a folded central part of the panel forms the closed end 2 and the opposing short edges of the panel bound the periphery of the open mouth 3, the line 33 passing from the choker fitting 52 through the eyes 92, 93 and back to the choker fitting 52, for drawing the mouth 3 closed. The two halves of the long edge on one side of the panel are connected by joining line 115. The two halves 116,117 of the opposing long edge of the panel are not joined, and define a slit 112 extending from the mouth 3 down one side of the bag toward the closed end 2, in like manner to the third embodiment of FIG. 8.

In use, as best seen in FIG. 10, the components of the light fitting 50 are first introduced through the open mouth 3 thereby substantially enclosing the light fitting in the bag 1. By then manipulating the choker fitting to draw the line through the openings 56, 57, 58 the ring-shaped first line portion 74 is reduced in size to close the mouth 3. The second portion 78 of the line 33 is then looped about the construction member 51. A hook fastener 88 (such as a carabineer having a hinged gate and screw closure) is inserted through the terminal eye 73′ and through the ring-shaped first line portion 74 to secure the assembly. When the third embodiment is used a member 113 (such as the power cable shown in phantom in FIGS. 9 and 10) which protrudes through the bag may be received in the slit 112, while still closing the mouth 3. The fastener 110 is positioned proximate the slit 112 and opened to break open the ring and allow entry of the member 113 into the slit 112. By reconnecting the fastener 110, the mouth can then be drawn closed, to the same degree as the second embodiment, substantially enclosing the light fitting 50.

In some applications of the present invention it may be desirable to provide indicator tabs on the wire mesh. One or more such indicator tabs may be incorporated in each of the present invention described herein or any other variation of the structure of the present invention as desired for particular applications. Two such locator tabs 130 are shown on FIG. 1 at locations indicated at 132 and 134 which are, preferably 180.degree. apart and are applied to the wire mesh bag 1 where two nodes of the wire mesh bag are adjacent to each other and may be utilized thereat in place of the ferules such as ferules 9a, 9b, 9c and/or 9d. so as to indicate the extent of the wire mesh bag 1 to allow for careful installation thereof. FIGS. 17, 18 and 19 illustrate the structural details of the locator disc 130 and FIG. 20 illustrates the assembly of the locator tab 130 on two adjacent nodes 150 and 152 of the wire mesh strand. As shown thereon, each locator tab 130 has a generally circular, disc like body member 134 though other geometric shapes may be provided for particular applications. A clamping member 139 is comprised of a pair of legs 140 and 142 which are coupled to the upper surface 136 of the body member 134. Each of the legs 140 and 142 have a curved upper end 140′ and 142′. After installation on the adjacent nodes of the wire strands of the bag 1, a force indicated by the narrow F is applied to the legs 140 and 142 bending them down towards the upper surface 136 of the disc like body member 134 to clamp the adjacent nodes 150 and 152 of the wire mesh strand of the bag 1 to the upper surface 136.

The present invention may also include structure for increasing or decreasing the size of the bag 1 in order to accommodate various sized apparatus such as the light fitting 50 (FIG. 10) to provide a close or loose fit with respect thereto. FIGS. 11, 12 and 13 illustrate a preferred form of the structure 160 for varying the extent of the wire mesh bag 1 and may be installed, for example, in place of one or more of the ferules 9d between ferules 9c and 9b shown on FIG. 2 and may be incorporated in any of the embodiments described herein. As shown in FIGS. 11, 12 and 13 a short length of an auxiliary wire 162 having a first end 162′ and a second end 162″. The auxiliary 162′ is coupled at the first end 162′ and second end 162″ to a first strand section 164 of the wire mesh of bag 1 by, for example, tape indicated at 166 to define a wire mesh strand accepting space opening indicated a L therebetween. A second strand section 168 of the wire mesh of bag 1 which is adjacent the first strands section 164 is pulled through the opening L. A toggle 170 is fixed to the second strand section 168 as indicated at 173 to lie over and across the opening L and is sized to prevent the toggle 170 from being pulled through the opening L. FIG. 12 shows the second strand section pulled through the space L a desired amount and any amount of the wire strand of the mesh may be so pulled through thereby decreasing the extent of the bag 1. FIG. 13 shows the structure 160 where the second strand 168 is pulled down so the toggle 170 is bearing against the auxiliary wire 162 and the first strand section 164 across the opening L to provide the maximum extent to the bag 1.

FIGS. 14, 15 16 illustrate the toggle 170 of the structure 160. The toggle 170 is a generally solid cylinder having an axis 175 and an axial length B with rounded ends 170′ and 170″. A wire strand accepting aperture 172 is provided to extend through the toggle 170 and the second strand 168 is positioned in the aperture 172 and is fixed, for example by crimping to provide a permanent attachment therebetween. As noted above, the axial length B is selected so that the toggle 170 cannot fit through the opening L.

The mesh bag of the present invention is adaptable to accommodate a wide variety of fixtures other than the generally rectangular prism shape of the electrical fitting 50 shown in FIG. 10. FIGS. 23, 24 and 25 illustrate a few of the shapes of fixtures that may be safely enclosed by the mesh bag of the present invention. FIG. 23 shows the bag 1 enclosing a closed circuit TV camera 190. FIG. 24 shows the bag 1 enclosing a navigation/strobe warning light 192 and FIG. 25 shows the bag 1 enclosing a speaker/horn 194.

While particular embodiments and applications of the present invention have been above described and illustrated, the present invention is not limited to the precise construction and arrangements disclosed. Those persons knowledgeable in the art may conceive of certain modifications, changes and variations in the detailed embodiments disclosed above as illustrative, to suit particular circumstances or products to be formed. The invention is therefore not intended to be limited to the preferred embodiments depicted, but only by the scope of the appended claims and the reasonably equivalent apparatus and methods to those defined therein.

Claims

1. A fall arrest safety net assembly comprising:

a bag having a closed end and an opposing open mouth, the bag constructed from one or more wire strands which are turned back upon themselves to form loop members and a plurality of eyes, wherein adjacent loop members are jointed to one another with fastenings and the eyes are spaced about the open mouth;

an elongate line extending through the eyes spaced about the mouth of the bag;

a slit in the bag separating a first loop member from an adjacent second loop member, the slit extending from the open mouth to the closed end;

an auxiliary wire having a first end and a second end secured to the first loop member to define a mesh strand accepting space opening between the auxiliary wire and the first loop member; and

a toggle on the second loop member, the toggled sized to selectively prevent the toggle from exiting the mesh strand accepting space opening.

2. The fall arrest safety net assembly of claim 1, wherein the bag is formed from a rectangular main mesh panel and a pair of end panels, each of the rectangular main mesh panel and the pair of end panels constructed from the one or more wire strands which are turned back upon themselves to form the loop members and the plurality of eyes, wherein the rectangular main mesh panel includes opposing transverse edges and opposing longitudinal edges, wherein eyes are located along the opposing transverse edges of the rectangular main mesh panel and wherein each end panel is fixed to a respective one of the longitudinal edges.

3. The fall arrest safety net assembly of claim 1, and further comprising:

a first locator tab mounted on the bag, the first locator tab having a body member having a first side and a second side, a clamping member coupled to the first side of the body member and having a pair of legs, one of the legs clamping a portion of a third loop member to the first surface of the body member and the other leg clamping a portion of a fourth loop member to the first side of the body member, the third loop member adjacent to the fourth loop member; and

a second locator tab mounted on the bag, the second locator tab having a body member having a first side and a second side, a clamping member coupled to the first side of the body member and having a pair of legs, one of the legs clamping a portion of a fifth loop member to the first surface of the body member and the other leg clamping a portion of a sixth loop member to the first side of the body member, the fifth loop member adjacent to the sixth loop member.

4. The fall arrest safety net assembly of claim 3 wherein the first locator tab is mounted approximately 180° from the second locator tab.

5. The fall arrest safety net assembly of claim 1 wherein the elongate line has a thickness greater than the thickness of the one or more wire strands.

6. The fall arrest safety net assembly of claim 1 and further comprising:

a first hook member coupled to the first end of the elongate line; and

a second hook member coupled to the second end of the elongate line.

7. The fall arrest safety net assembly of claim 6 wherein the first hook member comprises a carabineer.

8. The fall arrest safety net assembly of claim 7 wherein the second hook member comprises a carabineer.

9. The fall arrest safety net assembly of claim 1 wherein the toggle has a cylinder shape and an axial length and wherein the axial length is greater than the mesh strand accepting space opening.

10. The fall arrest safety net assembly of claim 1 and further comprising a choker fitting having at least one aperture through which the elongate line extends.

11. A method of making a fall arrest safety net arrangement, the method comprising:

forming a mesh bag having a closed end and an opposing open mouth by turning one or more wire strands back upon themselves to form loop members and plurality of eyes spaced about the mouth of the mesh bag;

joining adjacent loop members of the mesh bag to one another with fastenings;

extending an elongate line through the eyes spaced about the mouth;

separating a first loop member from an adjacent second loop member to form a slit extending from the open mouth to the closed end;

securing a first end and a second end of an auxiliary wire to the first loop member to define a mesh strand accepting space opening between the auxiliary wire and the first loop member; and

securing a toggle on the second loop member, the toggle sized to selectively prevent the toggle from exiting the mesh strand accepting space opening.

12. The method of claim 11 wherein forming the mesh bag comprises:

forming a rectangular main mesh panel by turning one or more wire strands back upon themselves to form the loop members and eyes, the rectangular main mesh panel having opposing transverse edges and opposing longitudinal edges, wherein the eyes are located along the transverse edges;

forming a pair of end panels by turning one or more wire strands back upon themselves to form the loop members and the eyes; and

fixing each end panel to a respective one of the longitudinal edges of the rectangular main mesh panel.

13. The method of claim 11 and further comprising connecting a first locator tab and a second locator tab on the mesh bag in a spaced apart relationship, each of the locator tabs having a body member having a first side and a second side, a clamping member coupled to the first side of the body member and having a pair of legs, wherein one of the legs of the first locator tab is connected to a portion of a third loop member and the other leg of the first locator tab is connected to a portion of a fourth loop member, and wherein the third loop member is adjacent to the fourth loop member.

14. The method of claim 13 wherein one of the legs of the second locator tab is connected to a portion of a fifth loop member and the other leg of the second locator tab is connected to a portion of a sixth loop member, and wherein the fifth loop member is adjacent to the sixth loop member.

15. The method of claim 13 wherein the locator tabs are connected to the wire strands approximately 180° from one another.

16. The method of claim 11 wherein the elongate line has a thickness greater than the thickness of the one or more wire strands.

17. The method of claim 11 and further comprising:

coupling a first hook member to a first end of the elongate line; and

coupling a second hook member to a second end of the elongate line.

18. The method of claim 17 wherein the first hook member comprises a carabineer.

19. The method of claim 11 wherein the toggle has a cylinder shape and an axial length and wherein the axial length is greater than the mesh strand accepting space opening.

20. The method of claim 11 and further comprising extending the elongate line through at least one aperture of a choker fitting.