EP3721946A1 - Gurtzeug mit kompakter einstellvorrichtung - Google Patents

Gurtzeug mit kompakter einstellvorrichtung Download PDF

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Publication number
EP3721946A1
EP3721946A1 EP20167900.8A EP20167900A EP3721946A1 EP 3721946 A1 EP3721946 A1 EP 3721946A1 EP 20167900 A EP20167900 A EP 20167900A EP 3721946 A1 EP3721946 A1 EP 3721946A1
Authority
EP
European Patent Office
Prior art keywords
wire element
perforated part
elastic
harness
belt
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP20167900.8A
Other languages
English (en)
French (fr)
Other versions
EP3721946B1 (de
Inventor
Loïc BLONDEAU
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Zedel SAS
Original Assignee
Zedel SAS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Zedel SAS filed Critical Zedel SAS
Publication of EP3721946A1 publication Critical patent/EP3721946A1/de
Application granted granted Critical
Publication of EP3721946B1 publication Critical patent/EP3721946B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62BDEVICES, APPARATUS OR METHODS FOR LIFE-SAVING
    • A62B35/00Safety belts or body harnesses; Similar equipment for limiting displacement of the human body, especially in case of sudden changes of motion
    • A62B35/0006Harnesses; Accessories therefor
    • A62B35/0025Details and accessories
    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62BDEVICES, APPARATUS OR METHODS FOR LIFE-SAVING
    • A62B35/00Safety belts or body harnesses; Similar equipment for limiting displacement of the human body, especially in case of sudden changes of motion
    • A62B35/0006Harnesses; Accessories therefor
    • A62B35/0025Details and accessories
    • A62B35/0031Belt sorting accessories, e.g. devices keeping the belts in comfortable positions

Definitions

  • the invention relates to a tying harness comprising a belt and a pair of thigh loops.
  • a tying harness comprises a belt and a pair of thigh loops.
  • the belt and the thigh loops can be more or less thick to ensure the comfort of the user.
  • a harness intended for work at height must be particularly comfortable to allow prolonged use.
  • the harness When climbing, the harness must also be used so as not to injure the climber who falls in a leading route.
  • the harness In the field of mountaineering and ski touring, the harness is mainly intended for tying a rope.
  • the thicknesses of the belt and the thigh circumference can be thinner because the latter are rarely put under tension. This results in a gain in weight and compactness appreciated by athletes, but to the detriment of their comfort.
  • the harness is versatile and the user does not need to multiply his equipment.
  • this configuration is not adjustable, which limits its value.
  • the object of the invention is to remedy these drawbacks and, in particular, to provide a harness which has a device for adjusting the circumference of the belt or at least one thigh circumference which is compact and easy to use.
  • this object is achieved by a harness comprising thigh loops and a belt provided with a device for adjusting the circumference of the belt.
  • the tying-in harness is remarkable in that the belt circumference adjuster comprises an elastic wire member having a first end attached to a first end of the belt, a perforated part movably mounted on the elastic wire member, the perforated part defining a through hole through which passes the elastic wire element and a loop fixed to the second end of the belt, the loop cooperating with the perforated part to close the belt.
  • the elastic wire element forms a plurality of corrugations at rest, the plurality of corrugations having a lateral dimension greater than the lateral dimension of the through-hole to block the perforated part.
  • the plurality of corrugations is reduced or disappeared when the elastic wire element is under tension, the lateral dimension of the elastic wire element under tension being less than or equal to the lateral dimension of the through-hole to allow the sliding of the perforated part.
  • a tying harness comprising a belt and thigh loops provided with a device for adjusting the circumference of at least one thigh circumference.
  • the tying-in harness is remarkable in that the device for adjusting the circumference of at least one thigh circumference comprises a resilient wire element having a first end attached to a first end of the at least one thigh circumference, a perforated piece movably mounted on the elastic wire element, the perforated part defining a through hole through which the elastic wire element passes and a loop fixed to the second end of the at least one thigh loop, the loop cooperating with the perforated part to close the at least one thigh circumference.
  • the elastic wire element forms a plurality of corrugations at rest, the plurality of corrugations having a lateral dimension greater than the lateral dimension of the through-hole to block the perforated part.
  • the plurality of corrugations is reduced or disappeared when the elastic wire element is under tension, the lateral dimension of the elastic wire element under tension being less than or equal to the lateral dimension of the through-hole to allow the sliding of the perforated part on it. along the elastic wire element.
  • the elastic thread element comprises a sheath made of a non-stretchable material which surrounds a core made of an elastic material, the sheath forming the corrugations around the core or the elastic thread element is an element woven inside of which elastic threads and non-elastic threads are woven, the elastic threads having a shorter length than the non-elastic threads.
  • a first end of the sheath is fixed to a first end of the core and a second end of the sheath is attached to a second end of the core.
  • the sheath is slidably mounted relative to the core between the first and second ends.
  • the elastic wire element defines corrugations having a height at least equal to twice the height of the perforated part.
  • the elastic wire element defines a reduction in its length equal to at least 33% between a stretched configuration and an unstretched configuration.
  • the thickness of the sheath is at least equal to 1/5 of the lateral dimension of the through hole.
  • the elastic thread element has a free end terminated by a bead preventing separation between the perforated part and the elastic thread element.
  • the subject of the invention is also a method for adjusting a belt or a thigh circumference of a harness which is easy to implement with a compact adjustment device.
  • a tethering harness 1 such as that shown schematically on figure 1 comprises a belt 2 provided with a waist circumference 2a associated with a device 3 for adjusting the circumference of the belt 2 which can also perform the function of opening / closing device for the belt 2.
  • the harness 1 also has a pair of thigh loops 4, each thigh loops 4 preferably being connected to the dorsal part of the belt 2, advantageously by two straps 5, which may or may not be elastic.
  • Each leg loop 4 is connected to the ventral part for example by a trigger guard 6 via a central ring 7.
  • each thigh loop 4 is independently attached to the front part of the belt 2.
  • each thigh circumference 4 is associated with a device 8 for adjusting the circumference of the thigh circumference 4 which, in this exemplary embodiment also performs the function of opening / closing device for the thigh loop 4.
  • the adjustment device 3 is fixed in the first and second positions A and B on a support band of the waist size 2a.
  • the adjustment device 3 is fixed by sewing on both ends of the belt 2.
  • the adjustment device 3 is configured to adjust the circumference of the waistline to allow adjustment of the circumference to the build of the user.
  • An identical configuration is advantageously used for the adjustment device 8 of the thigh circumference 4.
  • the device 3 for adjusting the circumference of the belt 2 may or may not provide an opening / closing device for the belt 2. In the latter case, the belt 2 is always closed and its circumference is adjustable. The same may apply to the devices 8 for adjusting the circumference of the thigh loops 4.
  • the harness 1 is advantageously devoid of shoulder straps in order to reduce the weight of the harness 1 and its bulk.
  • an adjustment device 3 of the belt 2 and / or an adjustment device 8 of the thigh loops 4 in comparison with an architecture or the belt 3 or the thigh loops 4 have a fixed circumference.
  • the adjustment device comprises an elastic wire element which cooperates with a perforated part defining a through hole.
  • the section of the through-hole is greater than or equal to that of the elastic wire element under tension and less than that of the wire element at rest.
  • the wire element passes through the hole of the perforated part.
  • the section of the wire element decreases, which allows the translation of the perforated part along the wire element.
  • the operation is opposed to that of the cord clamp of the prior art which modulates the section of the through-hole to clamp the wire element. This solution is more compact than that of the prior art because the perforated part is less bulky than the cord clamp.
  • the perforated part When the perforated part is subjected to tensile stress along the longitudinal axis of the elastic wire member, one part of the wire member stretches and the other part is at rest. These two parts of the wire element are separated by the perforated part.
  • the part of the wire element subjected to the tensile stress sees its section reduced and in particular in the part of the wire element located in the through hole in the immediate vicinity of the portion of the wire element under stress. There is then a reduction in the contact surface between the wire element and the internal wall of the through-hole in order to maintain the perforated part in the desired position.
  • the other part of the wire element not subjected to the tension separated from the first part by the perforated part is not able to hold the perforated part in position.
  • Such a configuration is not satisfactory for forming a device for adjusting a thigh circumference or a device for adjusting a belt because this configuration does not make it possible to resist the movement of a perforated part subjected to a mass of 400 kg ce which can be reached during a fall.
  • the adjustment device 3 of the belt 2 has an elastic wire element 9 which cooperates with a perforated part 10.
  • the elastic wire element 9 passes through a through hole 10a of the perforated part 10.
  • the size of the wire element changes. , that is to say its section perpendicular to the longitudinal axis.
  • the elastic wire element 9 has a first end which is attached to a first end of the belt 2 or of a thigh loop.
  • the perforated part 10 is movably mounted on the elastic wire element 9.
  • the perforated part 10 moves along the longitudinal axis of the elastic wire element 9 preferably between the first and second opposite ends of the elastic wire element 9
  • the perforated part 10 is not fixedly mounted on the belt 2 or the thigh circumference 4, which allows greater freedom in its positions.
  • the perforated part 10 cooperates with a loop 11 fixed to the second end of the belt 2 or of the thigh loop 4.
  • the perforated part 10 and the buckle 11 cooperate to close the belt 2 or the thigh loop 4 of the harness.
  • the perforated part 10 penetrates inside the loop 11 in a first orientation and turns to prevent its exit from the loop 11.
  • the loop 11 is a fixed loop, that is to say with a constant perimeter.
  • the loop 11 is fixed by a wire, for example in the form of a rope or a strap.
  • the force applied to the adjustment device 3.8 and which seeks to increase the circumference comes in part from the buckle 11.
  • the buckle 11 bears against the perforated part 10 which is held in position by the element. elastic cord 9.
  • the loop 10 advantageously passes over the perforated part 10 so that it presses on the perforated part 10 and tends to rotate the perforated part 10 relative to the longitudinal axis of the elastic wire element 9
  • the rotation of the perforated part 10 under load makes it more difficult for it to move along the longitudinal axis of the elastic thread element 9.
  • the loop 11 passes around the elastic thread element 9.
  • the perforated part 10 moves along the longitudinal axis of the elastic wire element 9 during the adjustment phase and then is blocked to form a stop.
  • the stopper defines the position of the loop 11 along the elastic wire element 9 and which defines the circumference of the belt of the harness 1. It is advantageously the same for the thigh loops 4.
  • the elastic wire element 9 is one which is in a wavy or zigzag shape at rest and which is substantially rectilinear under tension. In other words, when the elastic wire element 9 is unstretched or at rest, it forms a plurality of corrugations. When the elastic wire member 9 is stretched or strained in longitudinal tension, the plurality of corrugations are reduced or disappear.
  • the value of the amplitude of the corrugations is a function of the value of the tensile force applied to the elastic wire element 9 along the longitudinal axis.
  • the perforated part 10 In order to form an adjustment device 3/8 which withstands greater tensile forces without the perforated part 10 moving, it is advantageous to make the perforated part 10 cooperate with an elastic wire element 9 which forms corrugations. In the area which is not under tension stress, at least one ripple is present. In the area which is under stress, the ripples have disappeared or have been reduced.
  • the unconstrained zone While in the prior art, the unconstrained zone is flat or substantially placed, which requires applying a significant pressure on the elastic wire element 9 to block its position, according to the invention the unconstrained zone has one or more corrugations which face the side wall of the perforated part 10.
  • the perforated part 10 seeks to move in the longitudinal direction of the elastic wire element 9 while the corrugation is oriented differently.
  • the force applied by the perforated part in contact with the elastic wire element 9 is no longer a frictional force but a force which seeks to deform the elastic wire element 9 and which presses on the corrugation.
  • the corrugation or the corrugations oppose the movement of the perforated part because the perforated part must push on the corrugations along the longitudinal axis in order to move.
  • the force applied to the perforated part 10 to enlarge the circumference of the belt advantageously results in the side wall of the perforated part 10 being brought into contact with a corrugation.
  • the perforated part 10 seeks to move the corrugation which is not possible because the material forming the corrugation is connected to the first end of the belt and is already under tension because of the perforated part 10.
  • the orientation of the material forming the corrugation is different from the orientation of the elastic wire element 9 in the perforated part 10. It is therefore not easy to insert, by force, the corrugation in the through hole of the perforated part 10 in order to move the perforated part 10.
  • this configuration makes it possible to define continuously the value of the circumference of the belt or thigh circumference. Under load, the loop 11 is in contact with the elastic wire element and with the perforated part 10.
  • the height of the corrugation, or amplitude is greater than the height of the through hole made in the perforated part 10 and inside which the elastic wire element 9 circulates so that the corrugation comes into contact with the side wall of the perforated part 10.
  • the elastic wire element 9 is under stress in tension, it is also possible to provide for the corrugations to be present, the height or amplitude of which is less than that of the through hole.
  • corrugation implies a surplus of material in front of the perforated part 10 which requires the application of a significant stress to be able to move the perforated part 10. A part of the corrugation comes into contact with the side wall. of the perforated part 10 which creates additional friction on the side wall of the perforated part 10.
  • the elastic wire element 9 advantageously comprises a tubular sheath 12, made essentially of a non-stretchable material, as well as a set of elastic wires 13 forming an elastic core.
  • the length of tubular sheath 12 defines the length of elastic wire member 9 when stretched.
  • the elastic threads 13 extend when the elastic thread element 9 is put under tension.
  • the non-stretchable material is, for example, polyamide or high tenacity polyester, and has a very low elongation capacity under normal conditions of use of the elastic thread element 9. This capacity is much lower than that. of the elastic material constituting the threads 13, namely for example an elastomer such as latex or lycra TM, for example at least ten times less.
  • the perforated part 10 When the elastic wire element 9 is put under stress, the perforated part 10 bears on a corrugation which blocks the perforated part. The perforated part presses on the corrugation which applies a stress in tension on the tubular sheath 12.
  • the corrugation is formed by the elastic threads 13 unstressed or weakly stressed after the perforated piece 10.
  • the elastic threads 13 seek to find a unstressed state and the sheath 12 having a length greater than the length of the unstressed son 13 prevents the achievement of this state which defines the corrugations.
  • the corrugation is associated with a stress applied by the elastic threads 13 which oppose the movement of the perforated part 10.
  • a first end of the sheath 12 is fixed to a first end of the core formed by the wires 13 and a second end of the sheath 12 is attached to a second end of the core.
  • the sheath 12 is slidably mounted relative to the core between the first and second ends.
  • the sheath 12 can slide relative to the core at any point between the first and second ends. At rest, the sheath 12 and advantageously the elastic core 13 form a plurality of corrugations between the two ends of the elastic wire element 9. Preferably, the corrugations of the sheath 12 are arranged alternately on either side of blade. When the elastic thread element 9 is at rest, there is a force applied by the sheath 12 on the elastic threads to form the corrugations.
  • the point of contact between the perforated part 10 and the sheath 12 defines the zone under stress and the zone unconstrained.
  • the sheath 12 and advantageously the elastic core in the unconstrained zone are reorganized with respect to the elastic threads 13 to reform corrugations which will oppose the movement of the perforated part 10.
  • the elastic wire element 9 defines corrugations having a height at least equal to twice the height of the through opening 10a of the perforated part 10.
  • the corrugation comes in front of the side wall from the cavity. 10a through to the end and which provides friction and makes more complicated the deformation of the corrugation to fit into the through cavity 10a.
  • the height of the elastic wire element 9, that is to say the distance which separates two opposite vertices of two opposite corrugations is at least twice greater than the thickness of the elastic wire element 9 when it is rectilinear, preferably at least five times greater and even more preferably at least ten times greater.
  • the waves formed by the sheath 12 are large enough not to be able to enter forcibly into the through hole 10a. Modulating the force along the longitudinal axis makes it possible to modulate the amplitude of the undulations significantly and therefore to modulate the size of the elastic wire element 9 facing the through hole.
  • the sheath 12 defines an internal section which contains the elastic threads 13. It is particularly advantageous to provide that when the wire element 9 is under tension, the corrugations having disappeared, in a section plane perpendicular to the longitudinal axis of the elastic filament element 9, the area occupied by the elastic threads 13 is less than 90% of the internal surface of the sheath 12. The surface occupied by the threads 13 is at least equal to 15% of the internal surface of the sheath 12.
  • a sheath 12 whose thickness is at least equal to 1/5 of the height of the through hole.
  • the thickness of the sheath is the distance which separates the internal face and the external face of the sheath 12. With such a thickness of sheath 12, in the rest position, the sheath 12 effectively opposes the movement of the perforated part. 10.
  • the thickness of the corrugation effectively blocks the movement of the perforated part 10.
  • the elastic wire element 9 is configured to have a reduction in its length at least equal to 33% between its stretched state and its unstretched state, that is to say at rest.
  • a minimum reduction rate makes it possible to have a surplus of sheath 12 and therefore corrugations formed by the sheath 12 which are sufficiently deep and high to block the movement of the perforated part 10.
  • the reduction in length is at less equal to 50% between the stretched position and the unstretched position.
  • a wire element 9 in the form of a strap of rectangular section.
  • the width of the strap changes little between its stretched configuration and its non-stretched configuration. Only the thickness or height of the strap changes significantly.
  • This configuration makes it possible to define the orientation of the perforated part 10 by using a through hole, the section of which is substantially complementary to the section of the elastic wire element 9 in its stretched configuration.
  • the perforated part 10 is devoid of means for applying pressure on the elastic threads 13.
  • the perforated part 10 is not and does not have a cord clamp. as in the prior art. Holding in place is achieved by means of the force applied by the corrugation which opposes the movement of the perforated part 10 and not by means of the pressure applied by the cord clamp on the elastic threads 13.
  • the through hole 10a made in the perforated part 10 defines a straight through hole between the two ends of the elastic wire element 9 from one end to the other of the perforated part 10 when the elastic wire element 9 is under tension along its longitudinal axis.
  • This configuration is different from those of the prior art where a strap passes through two through holes offset from each other so that the strap changes direction between the two through holes. The change of direction introduces two zones of friction between the strap and the ridges of the two through holes.
  • the perforated part can also have several collinear through holes. In the configurations of the prior art, the force applied by the user to open or close the belt or the thigh loop will be identical because it is necessary to overcome the same frictional force on the wire element.
  • a part of the wire element is under tension which reduces or eliminates the undulations. It is then easier to move the perforated part towards the stretched area than towards the non-stretched area.
  • the force differential favors a better understanding of the product by the user compared to conventional strap tightening systems.
  • the area occupied by the son 13 and by the sheath 12 is less than or equal to the area defined by the through hole under stretching and resting.
  • the elastic thread element 9 is formed by a woven element, for example a strap or a cord, inside which are woven elastic threads 13 and non-elastic threads.
  • the elastic threads 13 are woven for example under tension in order to form undulations at rest. It is advantageous to use a strap because the waves are better controlled.
  • the length of the elastic threads is less than the length of the non-elastic threads so that at rest the elastic threads generate oscillations.
  • the elastic wire element 9 is in the form of a strap or a cord.
  • the elastic wire element 9 has a square or rectangular section under tension.
  • the corrugations are present on two opposite faces of the sheath.
  • the elastic wire element 9 has a free end terminated by a bead 14 preventing separation between the perforated part 10 and the elastic wire element 9.
  • the perforated part 10 can be made of any material such as plastic, metal or wood.
  • the figure 5 illustrates in longitudinal and transverse sectional view, the perforated part 10 which defines a ring.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Insulated Conductors (AREA)
  • Package Frames And Binding Bands (AREA)
  • Flexible Shafts (AREA)
EP20167900.8A 2019-04-05 2020-04-03 Gurtzeug mit kompakter einstellvorrichtung Active EP3721946B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR1903708A FR3094645B1 (fr) 2019-04-05 2019-04-05 Harnais a dispositif de reglage compact

Publications (2)

Publication Number Publication Date
EP3721946A1 true EP3721946A1 (de) 2020-10-14
EP3721946B1 EP3721946B1 (de) 2022-04-27

Family

ID=68210877

Family Applications (1)

Application Number Title Priority Date Filing Date
EP20167900.8A Active EP3721946B1 (de) 2019-04-05 2020-04-03 Gurtzeug mit kompakter einstellvorrichtung

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EP (1) EP3721946B1 (de)
FR (1) FR3094645B1 (de)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3132228A1 (fr) 2022-02-01 2023-08-04 Zedel Harnais d’encordement à dispositif d’accrochage
EP4389234A1 (de) * 2022-12-22 2024-06-26 Zedel Gurtzeug mit kompakter einstellvorrichtung

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1277497A1 (de) * 2001-07-20 2003-01-22 Mkm (S.A.R.L.) Oberschenkelsicherheitsgeschirr mit geschlossenem nicht zu öffnendem Riemen
FR2842741A1 (fr) * 2002-07-25 2004-01-30 Beal Ets Harnais de securite reglable
EP1557198A1 (de) 2004-01-22 2005-07-27 Ets Beal Schutzgürtel
US20170065026A1 (en) * 2015-09-08 2017-03-09 Steve Wu Elastic coreless rope belt

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1277497A1 (de) * 2001-07-20 2003-01-22 Mkm (S.A.R.L.) Oberschenkelsicherheitsgeschirr mit geschlossenem nicht zu öffnendem Riemen
FR2842741A1 (fr) * 2002-07-25 2004-01-30 Beal Ets Harnais de securite reglable
EP1557198A1 (de) 2004-01-22 2005-07-27 Ets Beal Schutzgürtel
US20170065026A1 (en) * 2015-09-08 2017-03-09 Steve Wu Elastic coreless rope belt

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3132228A1 (fr) 2022-02-01 2023-08-04 Zedel Harnais d’encordement à dispositif d’accrochage
EP4389234A1 (de) * 2022-12-22 2024-06-26 Zedel Gurtzeug mit kompakter einstellvorrichtung
FR3144013A1 (fr) * 2022-12-22 2024-06-28 Zedel Harnais à dispositif de réglage compact

Also Published As

Publication number Publication date
FR3094645B1 (fr) 2022-06-10
FR3094645A1 (fr) 2020-10-09
EP3721946B1 (de) 2022-04-27

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