Method For Manufacturing A Strop

Abstract

The invention relates to a method for manufacturing a strop (10) which includes a first eyelet (12a), a second eyelet (12b) and a slender central body (14) which extends from the first eyelet (12a) up to the second eyelet (12b), the strop (10) comprising a core (16) surrounded by a protective tubular sheath (18) which successively has a first stub (22a), a first hole (24a), a first inter-hole portion (26a), a second hole (28a), a central section (30), a third hole (28b), a second inter-hole portion (26b), a fourth hole (24b) and a second stub (22b), which method is characterised in that it comprises at least a first priming step which consists in fitting a belt (32) into the sheath (18), so that the belt (32) forms a closed ring which projects from the first hole (24a) and from the second hole (28a) of the sheath (18) to create the first eyelet (12a) and which projects from the third hole (28b) and from the fourth hole (24b) of the sheath (18) to create the second eyelet (12b), a second connection step which consists in connecting a reel (36) of a wire (20) on the belt (32), and a third step of filling the sheath (18) which consists in driving the belt (32) in rotation to unwind the wire (20) reel (36) and form the core (16) of the strop (10).

Claims

1. A method for manufacturing a strop (10) which includes a first eyelet (12a), a second eyelet (12b) and a slender central body (14) which extends from the first eyelet (12a) up to the second eyelet (12b), the strop (10) comprising a core (16) surrounded by a protective tubular sheath (18) which successively has a first stub (22a), a first hole (24a), a first inter-hole portion (26a), a second hole (28a), a central section (30), a third hole (28b), a second inter-hole portion (26b), a fourth hole (24b) and a second stub (22b), which method comprising at least: a first priming step which consists in fitting a belt (32) or a wire (20) respectively into the sheath (18), so that the belt (32) or the wire (20) respectively forms a closed ring which projects from the first hole (24a) and from the second hole (28a) of the sheath (18) to create the first eyelet (12a), and which projects from the third hole (28b) and from the fourth hole (24b) of the sheath (18) to create the second eyelet (12b), a second connection step which respectively consists in connecting a reel (36) of a wire (20) on the belt (32) by means of an attachment (38), or in closing the wire (20) on itself by means of an attachment (38), and a third step of filling the sheath (18) which respectively consists in driving the belt (32) in rotation to unwind the wire (20) reel (36) or said wire (20) to form the core (16) of the strop (10).

2. The method for manufacturing a strop (10) according to claim 1, wherein at the end of the third filling step, the wire (20) that connected on the reel (36) is cut and the attachment (38) which connects the wire (20) on the reel (32) is detached, so that the wire (20) which forms the core (16) of the strop (10) has two ends which are free, these two free ends being connected together by a new attachment (39).

3. The method for manufacturing a strop (10) according to claim 1, wherein it includes a fourth finishing step, which is carried out following the third step, and which comprises a first phase consisting in inserting the free end of the first stub (22a) into the sheath (18) through the second hole (28a) to cover the core of the first eyelet (12a) by the first inter-hole portion (26a) of the sheath (18), and a second phase consisting in inserting the free end of the second stub (22b) into the sheath (18) through the third hole (28b) to cover the core of the second eyelet (12b) by the second inter-hole portion (26b) of the sheath (18).

4. The method for manufacturing a strop (10) according to claim 3, wherein the fourth finishing step includes a third phase which consists in making the first stub (22a) come out of the sheath (18) beyond the second hole (28a) and in cutting the portion of the first stub (22a) which projects from the sheath (18), and a fourth phase which consists in making the second stub (22b) come out of the sheath (18) beyond the third hole (28b) and in cutting the portion of the second stub (22b) which projects from the sheath (18).

5. The method for manufacturing a strop (10) according to claim 1, wherein the belt (32) is tensioned between a first rotating element (34a) which extends through the first eyelet (12a) and a second rotating element (34b) which extends through the second eyelet (12b), at least one amongst the two rotating elements (34a, 34b) being a driver rotating element adapted to drive the belt (32) in rotation during the third step of the method.

6. The method for manufacturing a strop (10) according to claim 5, wherein the axis spacing between the first rotating element (34a) and the second rotating element (34b) is adjustable to allow adjusting the length of the strop (10).

7. The method for manufacturing a strop (10) according to claim 1, wherein the wire (20) that forms the core (16) of the strop (10) is made of a continuous fibre.

8. The method for manufacturing a strop (10) according to claim 1, wherein the wire (20) that forms the core (16) of the strop (10) is composed of a plurality of threads which form a strand.

9. The method for manufacturing a strop according to claim 1, wherein the wire (20) that forms the core (16) of the strop (10) is composed of a plurality of threads which form a braid.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0037] Other features and advantages of the invention will appear better upon reading the following description, with reference to the appended figures, which illustrate:

[0038] FIG. 1: a perspective front view of a strop made by the manufacturing method according to the invention;

[0039] FIG. 2: a sectional view of the strop of FIG. 1, according to the axis 2-2 of FIG. 1, which comprises a peripheral sheath and a core;

[0040] FIG. 3: a schematic top view of the strop during the first priming step of the method according to the invention;

[0041] FIG. 4: a schematic top view of the strop during the second connection step of the method according to the invention;

[0042] FIG. 5: a schematic top view of the strop during the third filling step of the method according to the invention;

[0043] FIG. 6: a perspective front view of the strop during the third filling step of the method according to the invention;

[0044] FIG. 7: a schematic top view of the strop during the third filling step of the method according to the invention, where the portion of the wire that is connected on the reel is cut;

[0045] FIG. 8: a schematic top view of the strop during the third filling step of the method according to the invention, where the two free ends of the wire are connected together by a new attachment;

[0046] FIG. 9: a perspective front view of the strop during the fourth finishing step of the method according to the invention;

[0047] FIG. 10: a schematic top view of the strop during the first priming step of the method according to a variant of the invention where the belt is closed by the wire which forms the core of the strop;

[0048] FIG. 11: a schematic top view of the strop during the second connection step of the method according to the variant of the invention of FIG. 10.

[0049] In all these figures, identical or similar elements bear identical or similar reference signs.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

[0050] The invention relates to a method for manufacturing a strop 10 as shown in FIG. 1.

[0051] The strop 10 includes a first eyelet 12a, a second eyelet 12b and a slender central body 14 which extends longitudinally from the first eyelet 12a up to the second eyelet 12b.

[0052] It should be noted that the strop 10 has a radial midplane of symmetry.

[0053] As shown in FIG. 2, the strop 10 comprises an inner core 16 which is surrounded by a protective tubular sheath 18.

[0054] The core 16 of the strop 10 is formed by a plurality of yarns of a wire 20.

[0055] The term wire refers to both a wire formed by a continuous fibre of a synthetic or natural material, or a strand, or a braid formed by a plurality of threads, or a chain or any other link type.

[0056] According to a preferred example of implementation of the invention, the wire 20 is made from a polyethylene fibre, like the fibre known by the commercial name Dyneema.

[0057] The sheath 18 successively has, from the left to the right in FIG. 3, a first stub 22a, a first hole 24a, a first inter-hole portion 26a, a second hole 28a, a central section 30, a third hole 28b, a second inter-hole portion 26b, a fourth hole 24b and a second stub 22b.

[0058] By stub, it should be understood a free end section of the sheath 18 which remains free following the first priming step, as described later on.

[0059] Referring to FIG. 3, the manufacturing method according to the invention comprises a first priming step.

[0060] The first priming step consists in fitting a drive belt 32 into the sheath 18, so that the belt 32 forms a closed ring which comes out of the first hole 24a and the second hole 28a of the sheath 18 to create the first eyelet 12a, and which comes out of the third hole 28b and the fourth hole 24b of the sheath 18 to create the second eyelet 12b.

[0061] Still with reference to FIG. 3, the belt 32 is tensioned between a first rotating element 34a which extends through the first eyelet 12a, according to a first axis A of rotation, and a second rotating element 34b which extends through the second eyelet 12b, according to a second axis B of rotation.

[0062] It should be noted that the longitudinal axis spacing between the first rotating element 34a and the second rotating element 34b is adjustable to allow adjusting the length of the strop 10.

[0063] To this end, the belt 32 is formed by a link which is handled so that, successively, it fits into the sheath 18 through the third hole 28, comes out through the second hole 28a, wraps around the first rotating element 34a, fits again into the sheath 18 through the first hole 24a, comes out of the sheath 18 through the fourth hole 24b and then wraps around the second rotating element 34b.

[0064] The first priming step may be carried out by means of a needle (not shown) which allows driving the belt 32 manually through the sheath 18 as described before.

[0065] Once the belt 32 has been fitted into the sheath 18, the belt 32 is closed on itself, for example by a knot or a splice or any other connection type.

[0066] Referring to FIG. 4, the method according to the invention includes a second connection step which is carried out following the first priming step and which consists in connecting a wire 20 reel 36 on the belt 32 by means of an attachment 38.

[0067] The reel 36 is rotatably mounted on its axis C so as to be unwound when the wire 20 is pulled.

[0068] Without limitation, the reel 36 may be mounted on a motor-driven shaft to promote unwinding thereof, and the reel 36 may also be associated with a brake which imparts a tension on the wire 20.

[0069] The attachment 38 may be formed by a knot, a splice, a glue spot, an adhesive tape or any other connection type.

[0070] The second connection step of the method is followed by a third step of filling the sheath 18, which consists in driving the belt 32 in rotation about the first rotating element 34a and the second rotating element 34b, to unwind the wire 20 reel 36 and form the core 16 of the strop 10, as shown in FIGS. 5 and 6.

[0071] To this end, the first rotating element 34a is a driver rotating element which is adapted to drive the belt 32 in rotation.

[0072] Preferably, the first rotating element 34a is driven in rotation, for example, by an electric motor (not shown).

[0073] Each revolution performed by the belt 32 increases by two strands the core 16 of the central body 14 of the strop 10 and by one strand the core 16 of the first eyelet 12a and of the second eyelet 12b.

[0074] Thus, each new revolution of the belt 32 increases the mechanical strength of the strop 10.

[0075] At the end of the third filling step, with reference to FIG. 7, the portion of the wire 20 which is connected on the reel 36 is cut and the attachment 38 which connects the wire 20 on the belt 32 is detached, so that the wire 20 that forms the core 16 of the strop 10 has two ends which are free.

[0076] These two free ends are connected together by a new attachment 39 illustrated in FIG. 8, to close the wire 20 loop which forms the core 16 of the strop 10.

[0077] The new attachment 39 may be formed by a knot, a splice, a glue spot, an adhesive tape or any other connection means.

[0078] Also, still during the third filling step, the belt 32, which is cleared off the wire 20, is removed from the sheath 18 so as to keep only the core 16 formed by the wire 20 in the sheath 18.

[0079] Also, the method includes a fourth finishing step which is carried out following the third filling step and which consists in covering the core 16 of the first eyelet 12a and of the second eyelet 12b with the sheath 18.

[0080] For this purpose, with reference to FIG. 9, the fourth finishing step comprises a first phase which consists in inserting the free end of the first stub 22a into the sheath 18 through the second hole 28a of the sheath 18 to cover the core 16 of the first eyelet 12a by the first inter-hole portion 26a of the sheath 18.

[0081] The first stub 22a comes out of the sheath 18 through a first exit orifice 40a of the sheath 18 which is located beyond the second hole 28a, and then the end of the first stub 22a that projects from the sheath 18 is cut.

[0082] Similarly, the fourth finishing step comprises a second phase which consists in inserting the free end of the second stub 22b into the sheath 18 through the third hole 28b of the sheath 18 to cover the core 16 of the second eyelet 12b by the second inter-hole portion 26b of the sheath 18.

[0083] The second stub 22b comes out of the sheath 18 through a second exit orifice 40b of the sheath 18 which is located beyond the third hole 28b, and then the end of the second stub 22b that projects from the sheath 18 is cut.

[0084] In order to prevent the sheath 18 from slipping on the core 16 of the strop 10, the fourth finishing step includes a third sewing phase which consists in carrying out a first sewing 42a, or an equivalent blocking means, between the second hole 28a and the first orifice 40a of the sheath 18.

[0085] Similarly, the third sewing phase consists in carrying out a second sewing 42b, or an equivalent blocking means, between the third hole 28b and the second orifice 40b of the sheath 18.

[0086] Thus, following the fourth finishing step, the method according to the invention allows obtaining a strop 10 such as that one shown in FIG. 1, with a sheath 18 which is entirely closed.

[0087] According to a variant of the invention illustrated in FIGS. 10 and 11, the belt 32 is formed directly by the wire 20 of the reel 36 which is intended to form the core 16 of the strop 10.

[0088] Thus, according to this variant of the method, the first priming step consists in handling a free end of the wire 20 so that, successively, the wire 20 fits into the sheath 18 through the third hole 28b, comes out through the second hole 28a, wraps around the first rotating element 34a, fits again into the sheath 18 through the first hole 24a, comes out of the sheath 18 through the fourth hole 24b and then wraps around the second rotating element 34b.

[0089] Once the wire 20 has been inserted into the sheath 18, the wire 20 is closed on itself by an attachment 38 to form the belt 32, as shown in FIG. 11.

[0090] It should be understood that, according to this variant, the second connection step which consists in connecting a wire 20 reel 36 on the belt 32 is no longer necessary.

[0091] Finally, this variant includes a third step of filling the sheath 18 and a fourth finishing step which are identical to the third step and to the fourth step described before.

[0092] In particular, the method according to the invention allows mechanising the third step of filling the sheath 18 to form the core of the strop 10, which allows considerably reducing the manufacturing time in comparison with a method wherein the filling step is carried out manually.

[0093] Indeed, filling the sheath 18 is carried out by driving the belt 32, this driving could be motorised and automated.

[0094] Thus, the method according to the invention allows reducing the human intervention duration.

[0095] In addition, the method according to the invention allows carrying out the manufacture of a strop 10 of the previously-described type on an industrial scale.

[0096] Of course, the invention is described in the foregoing as example. It should be understood that a person skilled in the art is capable of carrying out different variants of the invention yet without departing from the scope of the invention.