The invention relates to a strap enabling a belt and/or a thigh strap or a pair of thigh straps of a roping harness to be produced, and to a roping harness made from such a strap.
Roping harnesses form part of the indispensable equipment in the field of work at height or sporting activities such as rock climbing, mountaineering, glacier hiking, or backcountry skiing. They make it possible to work or to pursue this type of sports activity in complete safety.
In rock climbing and for work at height, the weight and compactness of the roping harness are not characteristics of prime importance as the user does not have to carry all of his equipment when pursuing his activity.
However, in mountaineering, glacier hiking, or backcountry skiing, the sports person has to carry all of his equipment on him. This can represent a large weight and volume. Every gram gained in comparison with existing equipment therefore constitutes an effort appreciated by the user.
However, the gain in weight and compactness must not be achieved to the detriment of user comfort and safety.
An object of the invention consists in providing a strap having the particularity of being compact and light and enabling for example a belt and/or a thigh strap or a pair of thigh straps to be formed, designed to be integrated in a comfortable and safe roping harness.
For this purpose, the strap comprises at least a first area and at least a second area, the first and second areas being consecutive along a longitudinal axis of the strap.
The strap also comprises at least a first group of warp threads, a second group of warp threads different from the first group of warp threads and a third group of warp threads different from the first and second groups of warp threads.
The strap is further woven by means of the first, second and third groups of warp threads and at least one weft thread. The strap is advantageously devoid of the second group of warp threads in the second area, and of the third group of warp threads in the first area, the first group of warp threads passing through the first and second areas. The first group of warp threads and the second group of warp threads can be distributed over the width of the strap in the first area.
In one embodiment, the first group of warp threads and the second group of warp threads can be uniformly distributed in the orthogonal direction to the longitudinal axis of the strap in the first area.
According to one feature of the invention, the strap can comprise at least a third area comprising the first, second and third groups of warp threads.
Furthermore, the first area can be wider than the second area in an orthogonal direction to the longitudinal axis of the strap.
The first group of warp threads can comprise first warp threads made from polyamide or from polyethylene having at least 100,000 monomers per molecule and a molar mass approximately equal to 3×106 g/mol. The second group of warp threads can for its part comprise second warp threads which are monofilaments made from a material having a base formed by polyester, polyamide or polypropylene. Finally, the third group of warp threads can comprise third warp threads made from polyester having at least 100,000 monomers per molecule.
According to one embodiment, the first group of warp threads can mainly comprise first warp threads made from a first material. The second group of warp threads can mainly comprise second warp threads made from a second material different from the first material. The third group of warp threads can mainly comprise third warp threads made from a third material different from the first material and from the second material.
The third warp threads can further cover the first warp threads in the second area, and at least the second area can be associated with an adjustment device of a roping harness.
The second area can advantageously be configured to collaborate with a loop of the adjustment device.
The strap further comprises at least first and second weft threads made from different materials, the first area being mainly formed with the first weft thread and the second area being mainly formed with the second weft thread.
According to one feature of the invention, the first weft thread can be a monofilament made from a material having a base formed by polyester, polyamide or polypropylene. The second weft thread can for its part be made from polyamide or from polyester having at least 100,000 monomers per molecule.
The invention also relates to a roping harness having a belt and/or a thigh strap, possibly a pair of thigh straps, and/or a chest strap or a pair of chest straps, made from a strap comprising the above-mentioned features.
The roping harness can comprise at least one adjustment device of the thigh strap and/or of the belt, the adjustment device being fixed to two second areas separated by a first area.
The roping harness can furthermore comprise ends of the threads forming the second group of warp threads at one of the edges of the second area, i.e. at a junction between a second area and a first or third area.
The harness can also comprise ends of the threads forming the third group of warp threads at one of the edges of the first area, i.e. at a junction between a first area and a second or third area.
According to one embodiment of the roping harness, the latter can comprise an additional strap woven by means of the second group of warp threads or of a part of the second group of warp threads and starting at one of the edges of the second area, i.e. at a junction between a second area and a first or third area, to form an equipment holder and/or to collaborate with an adjustment device.
The roping harness can also comprise an additional strap woven by means of the third group of warp threads or a part of the third group of warp threads and starting at one of the edges of the first area, i.e. at the junction between a first area and a second or third area, to form an equipment holder and/or to collaborate with an adjustment device.
Finally, an embodiment of the roping harness can comprise a belt formed by a first strap comprising the above-mentioned features, and at least one of the thigh straps can be formed by a second strap and be terminated by a connecting strap in a second area, the connecting strap being sewn onto a second area of the belt.
Other advantages and features will become more clearly apparent from the following description of particular embodiments of the invention given for non-restrictive example purposes only and represented in the appended drawings, in which:
A roping harness 1 such as those represented schematically in
The harness 1 is also provided with a pair of thigh straps 4, each thigh strap 4 being able to be adjusted to the corpulence of the user as in the embodiments of
Whatever the embodiment of the harness, each thigh strap 4 is advantageously joined to the dorsal part of the belt 2 by two flexible straps 5, and to the ventral part by a hasp 6 via a central ring 7.
In the specific embodiment presented in
As presented in
The first area 9a of the strap 9 is designed to support the user in case of dynamic use of the roping harness. In the present case, the first area 9a corresponds to the part of the belt 2 surrounding the user with contact, the shape of which can be adjusted to improve the comfort of the roping harness 1. The first area 9a is wider than the second area 9b so as to enhance user comfort.
As represented in
The second area 9b presents a reduced width so as to limit the volume of the harness. The adjustment device 3 is fixed to the second area 9b which presents specific mechanic performances. The second area 9b is a more flexible area than the first area which enables it to be more easily adjusted to the user's morphology and/or to collaborate more easily with an adjustment device. The rigidity of the first area 9a enables a good comfort to be ensured when the belt is used ensuring that the latter will not twist during use. The rigidity of the first area 9a will ensure a good distribution of the stresses between the user and the belt.
In an advantageous embodiment, a second area 9b of the belt 2 can be configured to collaborate with the adjustment device 3 to adjust the circumference of the belt 2 to the user's waist size. For example, the second area 9b forms a piece of strap which is slipped into a loop 3a to adjust the size of the belt 2. The same can be the case for the thigh straps 4 or at least one of the thigh straps 4.
The strap 9 is made from several warp threads 10 having different mechanical characteristics and at least one weft thread 11a, 11b.
Preferably, several different warp threads are used to form the strap 9. The different warp threads present different mechanical characteristics. These different characteristics can be obtained by using different materials and/or by using different thread diameters.
In an advantageous embodiment, at least three different types of warp threads 10 are used to form the strap 9. The three types of warp threads can be made from three different materials. As a variant, the strap 9 comprises two different types of warp threads or four different types of warp threads.
The strap more precisely comprises at least a first area 9a and a second area 9b which have different mechanical characteristics. The differences of mechanical characteristics between areas 9a and 9b originate from the use of different groups of warp threads. The differences of mechanical characteristics can be observed along the longitudinal axis of the strap or along a transverse axis or again in torsion or flexion.
The differentiation of the mechanical characteristics between the areas 9a and 9b originates from the removal of certain warp threads with respect to all the warp threads used in the strap 9. Elimination of part of the warp threads of the strap 9 in area 9a and of another part of the threads in area 9b enables these two areas of the strap 9 to be specialised for their mechanical characteristics. The warp threads of the strap 9 are grouped in at least three groups of warp threads 10a, 10b, 10c and in several areas of the strap 9, at least one of the groups of warp threads being missing.
However, a first group of warp threads 10a runs through the first area 9a and second area 9b so as to ensure a good transmission of the forces during dynamic use of the harness while remaining compact. Keeping the first group of warp threads 10a in areas 9a and 9b avoids the necessity of a stitching step which makes the harness heavier and less flexible in the areas of additional thickness.
Advantageously, the first group of warp threads 10a runs through the whole of the roping harness 1. The first group of warp threads 10a ensures retransmission of the forces along the strap 9, for example between the two fixing points after securing device 3 or from the fixing point of the securing device to the portion of strap collaborating with the device 3 for adjusting the size of the strap.
The first area 9a of the strap 9 is formed by the first group of warp threads 10a and a second group of warp threads 10b. The first area 9a is not provided with a third group of warp threads 10c.
The second area 9b of the strap 9 is formed by the first group of warp threads 10a and the third group of warp threads 10c. The second area 9b is not provided with the second group of warp threads 10b.
According to one embodiment, the first group of warp threads 10a and the second group of warp threads 10b can be distributed over the width of the strap 9 in the first area 9a. This means that the threads of the first group of warp threads 10a can be joined to the threads of the second group of warp threads 10b along the width of the belt in the first zone 9a, so that the threads of the first group of warp threads 10a are placed in the neighborhood of the threads of the second group of warp chain 10b and vice versa.
According to an advantageous embodiment, the first group of warp threads 10a and the second group of warp threads 10b are uniformly distributed in the orthogonal direction to the longitudinal axis of the strap 9 in the first area 9a.
The first, second and third groups of warp threads do not have any warp threads in common.
For example purposes, the first group of warp threads 10a is formed by several warp threads having different mechanical characteristics. The first group of warp threads 10a can be formed by a first series of first warp threads and by a first series of second warp threads.
The second group of warp threads 10b is formed by several warp threads having different mechanical characteristics, for example, a second series of first warp threads and by a second series of second warp threads. The third group of warp threads 10c is formed by several warp threads having different mechanical characteristics, for example, a third series of first warp threads and by a series of third warp threads.
It is also possible to provide for each of the first, second and third groups of warp threads 10a, 10b, 10c to be formed by series of first, second and third warp threads.
However, as the different warp threads have different mechanical performances, it is advantageous to select their number and their position in the harness 1 in order to limit the total number of warp threads and therefore the volume and weight of the strap 9. To form a compact and light strap, it is advantageous to form groups of warp threads in which at least 50% of the threads of the group are identical. For example, the first group of warp threads 10a is mainly formed by the first warp thread. The second group of warp threads 10b can be mainly formed by the second warp thread. The third group of warp threads 10c can be mainly formed by the third warp thread.
In an advantageous embodiment, the groups of warp threads comprise at least 75% of identical threads or even 85% of identical threads. The larger the quantity of identical threads in a group, the more it is possible to gain weight by selecting the most suitable warp threads for the area involved 9a or 9b.
In a particularly advantageous embodiment, the second group of threads 10b is formed solely by the second warp threads and the third group of threads 10c is formed solely by the third warp threads.
The first group of threads 10a can be formed solely by the first group of threads to gain in compactness, but it appears advantageous to keep some second and/or third warp threads and to place them on the edges of the strap 9 to improve the strength of the edges of the strap thereby preserving a pleasant aspect for the user.
The materials used to form the warp threads 10 and weft threads 11a, 11b are judiciously chosen in order to obtain a light, flexible, compact and dependable roping harness.
The first warp threads 10a are designed to be present in the areas 9a and 9b and preferentially from one end of the strap 9 to the other. They are advantageously mechanically stronger than the other warp threads. In the first area 9a, there are a large number of second warp threads to increase the contact surface with the user whereas in the second area 9b smaller dimensions are sought for. It is therefore preferable to have second warp threads that are mechanically less strong than the third warp threads.
In order to ensure a good transmission of the forces, the first warp threads 10a running through the whole of the strap 9 can be made from polyamide or from polyethylene with ultra high molecular weight, which is marketed in particular under the tradename Dyneema® or Spectra®. What is meant by ultra high molecular weight is that the polyethylene used has at least 100,000 monomers per molecule, and preferentially has a molar mass approximately equal to 3×106 g/mol. As an alternative, the first weft threads 11a can be made from poly(p-phenylene terephtalamide (PPD-T) marketed for example under the brand names Kevlar® or Twaron®, from para-aramid copolymers marketed for example under the brand name Technora®, or aromatic polyesters such as the one marketed under the brand name Vectran®.
These materials present a Young's modulus of more than 130 GPa, which means that the first warp threads are very rigid. Their elongation at rupture is less than 10%, preferentially 5%.
The second warp threads 10b and the first weft thread 11a, used for weaving the first area 9a of the strap 9, can advantageously be made from a material having a base formed by polyester, polyamide, or polypropylene, the linear density of which is comprised between 300 dTex and 1760 dTex.
These materials are less solid than those used to form the first warp threads 10a. What is meant by less solid is that the loop resistance of the second warp threads and of the first weft thread 11a is lower than that of the first warp threads 10a. This means that when a loop is formed with a first warp thread 10a and a loop is formed with a second warp thread 10b or with a first weft thread 11a, and a traction force is exerted on the interwoven loops, the second warp thread 10b or the first weft thread 11a breaks first.
The second warp threads 10b and the first weft thread 11a do however present the advantage of being about ten times lighter than the first warp threads 10a. Their use is therefore enables the weight of the roping harness 1 to be reduced.
The second warp threads 10b and first weft thread 11a can advantageously be monofilaments. What is meant by monofilaments is that the threads can be obtained for example by coagulation of a continuous flow of liquid, by extrusion with drawing, or by spinning with cold drawing. A single thread of synthetic material is thus obtained the diameter of which is preferentially comprised between 0.1 and 0.4 mm. According to an embodiment that is well suited for manufacturing the strap, the diameter of the monofilaments can be equal to 0.24 mm.
The use of monofilament makes it possible to easily produce a first area 9a that is rigid and in particular that presents a good lateral rigidity.
The cross-section of the second warp threads 10b and of the first weft thread 11a can be smaller than that of the first warp threads 10a. This enables the thickness of the first area 9a of the strap to be limited and improves its compactness. The thinness of these threads gives the first area 9a a ventilated and breathing effect. User comfort during his sporting activity is thus improved compared with the use of a roping harness of the prior art.
The third warp threads 10c and possibly the second weft thread 11b are for their part advantageously made from polyamide or from polyester or high tenacity polypropylene, i.e. having at least 100,000 monomers per molecule. Unlike the second warp threads 10b and the first weft thread 11a, the third warp threads 10c and the second weft thread 11b are advantageously multi-filaments. This characteristic and the high tenacity of these threads give the second area 9b of the strap 9 an enhanced resistance compared with the first area 9a. The use of such warp threads makes it possible to form a second area 9b that this flexible and that allows stitching operations. The second area 9b is a privileged area for performing assembly of the strap with other components. On the contrary, the first area 9a made from monofilaments is not practical for the purposes of stitching.
The choice of these materials also ensures satisfactory operation of the assembly composed of the strap 9 and loop 3a. The sliding properties on the one hand enable good sliding of the area 9b when clamping is performed in the loop 3a, and on the other hand efficient locking of the strap 9 clamped in the loop 3a when a tension is applied.
Furthermore, the materials of the third warp threads 10c and of the second weft thread 11b are chosen so as to optimise operation of the second area 9b with the adjustment device 3 and in particular with the loop 3a. To improve comfort, it is advantageous to cover the first warp threads 10a with the third warp threads 10c so as to keep the first warp threads 10a in the heart of the second area 9b of the strap 9. The material of the first warp threads 10a is in fact particularly strong but has a low friction coefficient, which could lead to sliding of the second area 9b inside the adjustment device 3. Consequently, this can lead to a maladjustment of the roping harness 1. By placing the third warp threads 10c as an additional thickness with respect to the first warp threads 10a, the sliding properties of the strap 9 in the loop 3a are optimal.
These embodiments are usable to form a harness belt by means of the different embodiments of the strap set out in the foregoing.
The first warp threads 10a can be regularly distributed in the strap 9 in an orthogonal direction to the longitudinal axis of the strap 9 so as to guarantee a uniform strength in the whole of the strap 9. The same can be the case for the second and/or third warp threads 10b and/or 10c. In order to have the best transmission of forces in the strap 9, it is advantageous to have a uniform distribution of the different warp threads present.
In the first area 9a of the strap 9, the second warp threads 10b can preferably be placed between the first warp threads 10a so that the first and second warp threads 10a and 10b are uniformly distributed in the orthogonal direction to the longitudinal axis of the strap 9. The arrangement of the first, second and third warp threads 10a, 10b, 10c in the first area 9a can be formed in repetitive manner in the orthogonal direction to the longitudinal axis of the strap 9.
According to an exemplary embodiment, at least three second warp threads 10b can be placed between two consecutive first warp threads 10a. In similar manner, the first and third warp threads 10a and 10c can be arranged in uniform manner in the second area 9b of the strap 9 in the orthogonal direction to the longitudinal axis of the strap 9.
Furthermore, the number of third warp threads 10c placed between two consecutive first warp threads 10a to form the second area 9b of the strap 9 can be different from the number of second warp threads 10b placed between the first warp threads 10a to form the first area 9a. The third warp threads 10c can also be positioned as an additional thickness on each side of the first warp threads 10a to obtain a second area 9b that is less broad than the first area 9a. The third area 9c of the strap 9 then has a substantially trapezoid shape.
In the remainder of the description, for ease of reading, the first group of warp threads 10a is considered as being formed solely by the first warp threads. The same is the case for the second and third groups of warp threads 10b, 10c which are considered as being formed solely by the second or third warp threads. The person skilled in the art will keep in mind the fact that the notions of first, second and third warp threads refer more generally to first, second and third groups of warp threads.
The first area 9a can comprise first and second warp threads 10a and 10b and weft thread or one of the weft threads 11a, 11b for the first area 9a to form a strap. The second area 9b can comprise first and third warp threads 10a and 10c and the weft thread or one of the weft threads 11a, 11b for the second area 9b to form a strap.
The strap 9 is therefore formed by two unitary straps in the first and second areas 9a and 9b. The area 9a is not stitched onto the area 9b.
The strap 9 is devoid of the second warp threads 10b in the second area 9b, and of the third warp threads 10c in the first area 9a. The first and second areas 9a and 9b are not formed by the same warp threads which enables differentiation of their mechanical performances.
The strap 9 can comprise a third area 9c in which the first, second and third warp threads 10a, 10b and 10c are to be found at the same time. The third area 9c advantageously corresponds to an area forming the junction between the first and second areas 9a and 9b. The third area 9c can be of any shape but it is advantageously trapezoid to ensure a good transfer of the forces.
In an advantageous embodiment, the second threads 10b which are not used in the first area 9a are cut in order to avoid an unnecessary extra weight. This embodiment enables the strap 9 to be functionalised and the useless warp threads to be eliminated to gain in compactness, weight and/or flexibility depending on the type of warp thread eliminated.
The third area 9c corresponds to a connection area between the first and second areas 9a and 9b, and can comprise a stitching forming an additional thickness (not shown) designed to ensure the solidity of the strap 9.
As an alternative, the third area 9c can correspond to an area in which the first, second and third warp threads 10a, 10b, 10c are woven in association with the weft thread 11a, 11b so as to guarantee a dependable connection between the first and second areas 9a and 9b.
It is in fact advantageous for the first area 9a to be wider than the second area 9b, as the first area 9a is designed to be in contact with the user when the latter has a fall for example. The wider the first area 9a, the more comfortable the roping harness 1, as the forces exerted by the roping harness 1 on the user are better distributed. However, to have a very broad first area 9a, it is necessary to have a large number of voluminous warp threads 10 and/or warp threads 10.
The second area 9b can furthermore be less broad than the first area 9a in a direction orthogonal to the longitudinal axis of the strap 9b, as this second area 9b is not designed to be in contact with the user. Reducing the width of this second area 9b then enables the compactness of the roping harness 1 to be improved.
As indicated previously, the strap 9 is furthermore manufactured by means of at least one weft thread 11a, 11b being able for example to be made from an identical material to that of one of the warp threads 10 used. The weft thread 11a, 11b can advantageously run through the whole of the first and second areas 9a and 9b to ensure the solidity of the device.
However, according to an alternative embodiment represented in
Thus, according to the specific embodiment that is illustrated in the figures, the first weft thread 11a used for weaving of the first area 9a can be cut and replaced by the second weft thread 11b in order to weave the strap 9. It is preferable to weave the first and second areas 9a and 9b with a single weft thread to avoid making the roping harness 1 heavier. The first area 9a and/or second area 9b can however be manufactured by simultaneously weaving the first and second weft threads 11a and 11b so that at least one of the weft threads runs through the whole of the strap 9.
It is also possible to secure the second weft thread 11b on the edge of the first area 9a and to secure the first weft thread 11a on the edge of the second area 9b. This embodiment of simpler design can be advantageous in so far as it does not result in a too large extra weight of the roping harness 1. The two weft threads are present from one end of the strap 9 to the other, which makes the manufacturing process easier.
A thigh strap 4 of a roping harness 1 can also be manufactured by means of a strap 9 such as the one that has just been described in relation with a belt 2 of a roping harness 1.
To form a belt 2 or a thigh strap 4, it is advantageous to provide for the strap 9 to comprise a first area 9a acting as support strip and a second area 9b at each of the ends of the first area 9a. As an alternative, one of the two areas 9b is replaced by an area 9c, but this embodiment is heavier.
This embodiment is particularly advantageous as a single strap 9 forms a thigh strap 4 with a broad area 9a providing user comfort and two stronger areas 9b for the strength of the product. The use of a single strap 9 with two different areas enables a gain in compactness and weight in comparison with a single strap which is wider. The use of a single strap with two different areas enables a gain in compactness and weight in comparison with more complex structures where the strap which we transmits the forces is narrow and is stitched to a wider area to limit the discomfort of the narrow strap. The use of a single strap 9 with two different areas further avoids having to perform stitchings between the different portions of the thigh strap 4.
In an embodiment illustrated in
In a particularly advantageous embodiment, the two thigh straps 4 are formed with one and the same strap 9. This configuration enables a better transmission of the forces by means of the hasp 6 while remaining more compact in comparison with a solution where the connection of the two thigh straps is made by fixing the two straps of the thigh straps at the level of the hasp for example by stitching. In addition to the two thigh straps, the strap 9 can also form the two connecting straps 8.
In the embodiment illustrated in
As previously, it is advantageous to place a third area 9c between a first area 9a and a second area 9b.
It is further possible to replace a second area 9b by a third area 9c but the strap is heavier.
To form an adjustable thigh strap 4 as illustrated in
As a variant represented in
In this type of configuration, the use of a connecting strap 8 is particularly advantageous in a harness 1 where the thigh strap 4 can open so as to facilitate fitting of the harness on the user. There are many conditions in which the user does not have the possibility of passing his foot through the thigh strap 4. It is then particularly advantageous to be able to open and close the thigh strap 4. The connecting strap 8 enables the shape of the harness to be kept when the thigh strap 4 is open.
The strap 9 also enables a harness with a non-adjustable thigh strap 4 to be formed in compact manner and reducing the stitching steps, as illustrated in
As a variant that is not represented, a first of the second areas 9b can act as connecting strap 8 with the belt 2 or as a hasp 6 whereas the other second area 9b is fixed onto the first second area 9b to reclose the thigh strap. In case of fixing by stitching, the thigh strap is not adjustable by means of an adjustment system for example a loop system represented in
In the case of a non-adjustable thigh strap, the connecting strap 8 can be eliminated. As an alternative, the hasp 6 can be formed by stitching of two straps 9 each forming a thigh strap 4. Two areas 9b or 9c are stitched to one another. The strap 9 can also form the two thigh straps and the hasp 6 as is represented in the embodiment illustrated in
As a variant, the two second areas 9b can be stitched to one another so as to close the thigh strap 4. The hasp 6 and/or connecting strap 8 can be formed by an additional strap if necessary. This embodiment is less advantageous as it requires formation of a hasp 6 which will take up the stresses, and therefore additional stitching steps. In this embodiment, the thigh strap is non-adjustable.
The foregoing embodiments describe manufacturing of first and second areas 9a and 9b with specific groups of warp threads and a third area 9c which contains all the warp threads. It is further possible to provide additional areas where a part of the warp threads of the second group of warp threads 10b are associated with a part of the third group of warp threads 10c to form a fourth group of warp threads.
In the foregoing embodiments, the threads not used in areas 9a and/or 9b can be eliminated. Ends of the threads forming the second group of warp threads 10b are then located at one of the edges of the second area 9b and/or ends of the threads forming the third group of warp threads 10c are located at one of the edges of the first area 9a. What is meant by edge is the junction between two consecutive areas of the strap, i.e. a junction defined in a transverse direction to the longitudinal axis of the strap.
In an alternative embodiment, the warp threads that are not used in the first area 9a and/or in the second area 9b are kept and woven with another weft thread to form another strap. In these new embodiments, the strap 9 can be split into two. What is meant by split into two is that the strap 9 is a single strap in an initial area and is then split into two straps afterwards. Each portion of the split strap comprises one or more warp threads woven with a weft thread. This embodiment avoids having to stitch a first strap onto a second strap so that they share a part of the forces undergone.
The split straps are mechanically independent except at the starting point. The two straps 9 originating from the split share warp threads with the single portion. Each of the split straps comprises at least warp threads and at least one weft thread.
Depending on the embodiments, the first areas 9a and/or second areas 9b can be split into two. The split can be initiated for example in third areas 9c forming the junction between the first area 9a and second area 9b. There is then an additional strap woven by means of the third group of warp threads 10c and which starts at one of the edges of the first area 9a and/or an additional strap woven by means of the second group of warp threads 10b and which starts at one of the edges of the second area 9b. The split then forms the first area 9a or second area 9b and an additional strap.
In a first particular embodiment, the split is used for the belt 3. The first area 9a is formed as indicated in the foregoing. The warp threads not used to form the area 9a or a part of these warp threads are woven to form an additional strap which is arranged to form one or more equipment holders. The additional strap is advantageously cut and fixed so as to make the equipment holders extend on each side of the harness.
As a variant, it is also possible to provide for the second area 9b to be formed as indicated in the foregoing. The warp threads not used to form the area 9b or a part of these threads are woven to form an additional strap which is arranged to fold onto the first area 9a and to form for example an equipment holder or another attachment part. However, this embodiment is less strong than the previous embodiment.
In another embodiment linked to the thigh straps 4, the second area 9b defining the hasp 6 is split so as to limit the movement of the central ring 7.
The area 9b defining the hasp 6 is formed as indicated in the foregoing, and the unused threads are woven to form an additional strap. The area 9b and the additional strap are mechanically separated outside the doubling-up areas and they define a space inside which the central ring 7 can move.
In a stronger embodiment, the additional strap limiting the movement of the central ring is formed from splitting into two of one of the areas 9a forming the support area of a thigh strap 4. The additional strap is cut to form two ends of strap 9. One of the ends of additional strap is folded over in the direction of the hasp 6.
As a variant, splitting of the areas 9a into two can be performed on the two thigh straps 4 so as to form two additional straps. The two additional straps are cut and two of the strap ends formed are folded in the direction of the hasp and fixed to one another for example by stitching. The movement of the central ring 7 is limited on one side by the hasp 6 and on the other side by the two strap ends fixed to one another.
For example purposes, the other end of additional strap can be cut or used to close the thigh strap which is then non-adjustable. It is further possible to fix an adjustment device 3 between the end of the first area 9a and the hasp 6 and to use the remaining end of additional strap to collaborate with the adjustment device 3 either by means of a clip or directly by working with a loop as for the belt. The embodiment with a clip is illustrated for example in
In another configuration, it can further be envisaged to split the strap 9 at the level of the first area 9a to form an additional strap. The additional strap formed facing the area 9a will define and close the thigh strap 4. The areas 9a will form the support areas as previously whereas the additional straps will close the thigh straps 4. In this configuration, the thigh straps 4 are not adjustable. This embodiment is particularly advantageous as the thigh straps are formed exclusively by weaving.
In this embodiment, the hasp 6 can be formed by a third area 9c to avoid having to perform any stitching and/or cutting operation of the pair of thigh straps. This embodiment can be combined with the previous embodiment on formation of the hasp with its additional strap.
To enhance user comfort at the level of the thigh straps, other embodiments are possible. In these different embodiments, an additional strap is formed facing the first area 9a. This additional strap is cut so as to increase the surface of first area 9a which supports the user's thigh.
As previously, an additional strap is formed by splitting the strap 9 facing the first area 9a into two. The additional strap 9a is cut to form two ends of additional straps.
In a first instance, the two strap ends are fixed to one another to define the dimension of the thigh strap. In another instance, an adjustment device 3 is fixed to one of the strap ends, for example a loop. The other strap end collaborates with the loop to form an adjustment device of the thigh strap 4. In yet another embodiment, a part of the adjustment device 3 is fixed onto each of the ends of additional strap, for example clips.
What is done for one thigh strap can be done for the other thigh strap. These embodiments are particularly advantageous as they are compact and avoid stitching operations. The different components of the thigh strap are formed when weaving of the strap is performed which avoids stitching operations. Depending on the embodiments, it is possible to provide adjustable or non-adjustable thigh straps.
It is also advantageous for the strap 9 to have at least two identical weft threads 11a, 11b to facilitate starting of the split areas. The loom used to weave the strap 9 has to have a double-loom function and be able to form two superposed straps from a single strap. For this, the loom has to be configured to separate the warp threads into two distinct packets and to associate a weft thread with each packet so as to form the two portions of the second area 9b.
In the latter embodiments, an additional strap is woven by means of the second group of warp threads 10b or a part of the second group of warp threads 10b and it starts at one of the edges of the second area 9b to form an equipment holder and/or to collaborate with an adjustment device 3.
In other embodiments, an additional strap can be woven by means of the third group of warp threads 10c or a part of the third group of warp threads 10c, and start at one of the edges of the first area 9a to form an equipment holder and/or to collaborate with an adjustment device 3. These two embodiments can be combined.
It is also possible to provide a strap where certain threads are cut in certain parts and where additional straps are formed by splitting in other parts.
The strap represented in
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