法国专利FR3072034A1 HARNESS

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专利摘要:
The harness (1) comprises a belt (2), a pair of leg loops (3) and first and second lateral attachment points (4a, 4b). At least the first lateral attachment point comprises a connector (5) attached to the belt (3). The connector (5) is provided with a body defining: • at least one through opening inside which a fastening element (8) passes to the belt (2), • a connection ring (10) distinct from the at least one through opening, the connecting ring (10) being closed by means of a removable mounted closure member. The closure member and the body define at least one through hole distinct from the at least one through opening and the connecting ring (10). The closure member separates the connecting ring (10) and the at least one through hole.
公开号:FR3072034A1
申请号:FR1759410
申请日:2017-10-06
公开日:2019-04-12
发明作者:Simon EMONIN；Benoit Roger
申请人:Zedel SAS；
IPC主号:

专利说明:

@) The harness (1) has a belt (2), a pair of leg loops (3) and first and second lateral attachment points (4a, 4b). At least the first lateral fixing point comprises a connector (5) fixed to the belt (3). The connector (5) is provided with a body defining:
• at least one through opening inside which passes a fastening element (8) to the belt (2), • a connection ring (10) separate from the at least one through opening, the connection ring ( 10) being closed by means of a removable mounted closure element.
The closure member and the body define at least one through hole separate from the at least one through opening and the connecting ring (10). The closure element separates the connection ring (10) and the at least one through hole.
Harness
Technical field of the invention
The invention relates to a harness comprising a connector configured to facilitate the simultaneous attachment and the use of several safety accessories.
State of the art
Within the framework of a professional activity, a rope access technician or acrobatic worker can be brought to use a multitude of equipment and in particular a descender, a lanyard or a rope blocker, by successively using one and the other of the devices.
In pruning, the ropes and fixing points move around and along the tree as the operation progresses. Furthermore, it is conventional to use a lifeline which passes around the trunk of the tree or which is fixed to the trunk of the tree in order to be able to be placed in a comfortable position for working more efficiently than with a single substantially vertical cord.
When pruning, it is necessary to move continuously from one side to the other of the trunk of the tree as well as to move away or closer to the trunk. To facilitate pruning work, it is known to use a harness which is provided with two lateral fixing points on either side of the sagittal plane of the user. Conventionally, the attachment points are integrated into the harness belt. A rope passes around the trunk and each end of the rope is attached to the two attachment points of the harness.
It appears that on a daily basis, this configuration has many disadvantages which complicate pruning work. By way of example, the assembly formed by the fixing points and the rope has a large bulk which means that the amplitude of movement on one side or the other of the shaft is limited, which necessitates modifying the point of attachment and / or work in full extension, that is to say in an uncomfortable position.
As an alternative to the attachment point mounted on the belt, there are also harnesses where the attachment point is arranged between the belt and the leg loops. Conventionally, the fixing point is formed by a ring which can be opened in order to be able to install a rope forming a lifeline.
It also appears that these two configurations can cause ergonomics or even security problems in the event of improper use.
Subject of the invention
An object of the invention is to remedy these drawbacks, and to provide a harness comprising a lateral attachment point which allows easier use and a greater range of motion as well as an improvement in safety.
We tend towards this object by means of a harness which includes a belt, a pair of leg loops and first and second lateral attachment points. The harness is remarkable in that at least the first lateral fixing point comprises a connector fixed at least to the belt, the connector comprising a closure element fixed to a body.
The connector is provided with a body defining at least one through opening inside which passes a fastening element to the belt. The closure element is removably mounted relative to the body. The closure member and the body define a connection ring separate from the at least one through opening. The connection ring being closed when the closing element is fixed to the body. The closure member and the body define at least one through hole separate from the at least one through opening and the connecting ring. The closure element separates the connection ring and the at least one through hole.
In a development, the closure member and the body define at least two through holes separate from the at least one through opening and the connecting ring. The closure element separates the connecting ring and the at least two through holes, the at least two through holes being aligned in a direction perpendicular to the longitudinal axis of the belt.
In a particular embodiment, the at least one through hole is partially defined by a groove in the body and a groove in the closure element.
Advantageously, the body has a first cavity cooperating with one end of the closure element so that said end of the closure element is inserted into the cavity to close the connection ring.
Preferably, the body has a second cavity cooperating with a lumen passing through the closure element so that the second cavity is in line with the lumen when the closure element closes the connection ring.
In an advantageous embodiment, the second cavity and the through lumen are arranged to allow the introduction of a blocker along an insertion axis which is perpendicular to the axis of introduction of the closure element in the second cavity.
It is advantageous to provide that the harness includes a wire element, a first end of which is fixed to the first connector by means of at least one through hole, the second end of the wire element being fixed to the second lateral fixing point.
In an advantageous embodiment, the wire element has a first part having a cross section smaller than the cross section of the at least one through hole so as to fit into said at least one through hole and a second part having a cross section greater than the section of the at least one through hole so as to form a blocking stop, the blocking stop being separated from the second lateral fixing point by the connector of the first lateral fixing point.
Preferably, the body defines a first through opening fixed to the belt by a first fixing element and a first through opening fixed to a thigh by a first fixing element.
In another development, the second lateral attachment point comprises a connector fixed at least to the belt, the connector being provided with a body defining:
• at least one through opening inside which passes a fastening element to the belt, • a connection ring separate from the at least one through opening, the connection ring being closed by means of a closing element removably mounted, and wherein the closure member and the body define at least one through hole separate from the at least one through opening and the connection ring, the closure element separating the connection ring and the minus a through hole.
Brief description of the drawings
Other advantages and characteristics will emerge more clearly from the description which follows of particular embodiments of the invention given by way of nonlimiting examples and represented in the appended drawings, in which:
- Figures 1 and 2 show, schematically, in top view and in 3/4 view, a first embodiment of a connector with a body separate from the closure element,
FIGS. 3 and 4 schematically represent, in plan view and in 3/4 view, a closing element fixed to the body according to the first embodiment,
- Figure 5 shows, schematically, a closure element fixed to the body according to the first embodiment with a sectional view for fixing the closure element with the body of the connector,
FIG. 6 and 7 schematically represent, in top view and in 3/4 view, a second embodiment of a body separate from the closure element,
FIGS. 8 and 9 schematically represent, in plan view and in 3/4 view, a closing element fixed to the body according to the second embodiment,
FIG. 10 schematically represents a closure element fixed to the connector according to the second embodiment with a sectional view for fixing the closure element with the body of the connector,
FIG. 11 schematically represents a harness equipped with two lateral fixing points provided with a connector and a wire element,
- Figure 12 shows, schematically, an enlarged view of a lateral attachment point on a harness,
- Figures 13 and 14 schematically show, in 3/4 view, a closure element fixed to the body and separated from the body according to an embodiment comprising a rope blocker.
Description of a preferred embodiment of the invention
As illustrated in FIGS. 11 and 12, a harness 1 according to the invention comprises a belt 2 and a pair of thigh loops 3, and is able to be associated with a pair of suspenders removably or irremovably mounted on the belt 2.
The harness 1 possibly includes a ventral suspension point which is configured to make the mechanical connection between a mooring point and the belt 2 of the harness 1 when the user is suspended in the harness 1. The harness 1 may also include a point back attachment in combination with shoulder straps.
In order to facilitate work at height and in particular pruning work, the harness 1 has two lateral fixing points 4a and 4b which are arranged on either side of the sagittal plane of the user. The harness 1 therefore has a first lateral attachment point 4a and a second lateral attachment point 4b which may independently be a right attachment point or a left attachment point.
The first and second lateral fixing points 4a and 4b are fixed at least to the belt 2. In one embodiment, the lateral fixing points 4a and 4b are fixed to the belt 2 in a non-removable manner. However, it is still possible to provide that the attachment points 4a and 4b or at least one of the attachment points is installed removably relative to the belt 2.
As illustrated in FIGS. 1 to 14, the fixing point 4 which can be the first fixing point 4a and / or the second fixing point 4b has a connector 5 which is fixed to the belt 2. The connector 5 is provided a body 6 which defines at least one through opening 7 inside which passes a fastening element 8 to the belt 2. The fastening element 8 is for example one or more straps which are fixed or define the belt 2.
In the illustrated embodiment, the connector has two through openings 7 which are respectively connected to the belt 2 and to a thigh loop 3. The second fastening element 8 is for example one or more straps which are fixed or define a turn de cuise 3. This configuration allows a better distribution of forces between the user's pelvis and his legs. This configuration also allows the user to better distribute his weight.
It is particularly advantageous to define a through opening 7 for each connection element 8 instead of a single opening which combines the two connection elements 8 because this allows better distribution of the forces and better definition of the movement of the connector 5 relative on the belt 2 and on the thigh 3.
In the illustrated embodiment, the two through openings 7 are curved and the radius of curvature is oriented towards the fixing point, that is to say to move away from the belt 2. It also appears that it is particularly advantageous to provide that the two through openings 7 substantially define an arc. This configuration allows a better rotation of the connector 5 in order to follow the movements of the user.
The connector 5 also includes a closing element 9 which is removably mounted with the body 6. In other words, the closing element 9 can be fixed to the body 6 and it can also be dismantled. In one embodiment, the body 6 and the closure element 9 are made of a metallic material, for example steel or aluminum alloy.
The body 6 and the closure element 9 define the periphery of a connection ring 10. The connection ring 10 is distinct from the at least one through opening 7, that is to say from the fixing zone between the belt 2 and the connector 5. In this way, the equipment which is installed in the connection ring 10 does not interfere with the attachment to the belt 2 and its possible mobility. This also allows a partial disassembly of the connector 5 without breaking the mechanical connection with the belt 2 and possibly the thigh circumference 3. This allows, to avoid a bad reassembly of the connector 5, for example in a position which prematurely wears the element fixing 8.
The connection ring 10 is a closed ring, the closure of which is ensured by fixing the closing element 9 with the body 6. When the closing element 9 is not fixed to the body 6, the ring connection 10 is not closed. This configuration makes it possible to install and simply remove an item of equipment by removing the closure element 9. For example, FIG. 12 illustrates the installation of a rope blocker A in a connection ring 10. The installed equipment advantageously has a through hole which cooperates with the periphery of the connection ring 10 which avoids the use of an additional connector of the carabiner or shackle type. Safety is improved by eliminating a superfluous element and the equipment is integrated closer to the user, which limits the size of the lateral attachment point 4. The equipment can also be a textile element which defines a sewn loop. As the buckle is sewn, safety can be improved compared to a knot made by the user.
The closure element 9 and the body 6 also define at least one through hole 11 separate from the at least one through opening 7 and the connection ring 10. The closure element 9 is arranged so as to separate the connection ring 10 and the at least one through hole 11. As previously, the through hole 11 is defined by means of a closed ring which is formed partially by the body 6 and partially by the closing element 9.
The connector 5 defines at least three separate holes 7, 10 and 11 which make it possible to functionalize the connector 5.
In an advantageous embodiment illustrated in FIG. 3 and in FIG. 8, the through hole 11 is disposed between the through opening 7 and the connection ring 10. Even more advantageously, the through opening 7, the through hole 11 and the connecting ring 10 are aligned.
In the embodiment illustrated in FIGS. 1 to 5, the closing element 9 and the body 6 define at least two through holes 11 distinct from the at least one through opening 7 and from the connection ring 10. In the mode embodiment illustrated, only two holes 11 are defined in the connector 5. The closure element 9 separates the connection ring 10 and the through holes 11. In a particularly advantageous manner, the through holes 11 are aligned in a direction perpendicular to the longitudinal axis of the belt 2. The holes 11 having a circular or substantially circular section, the axis which connects the centers of the circles is parallel to the transverse axis of the belt 2.
Even more advantageously, the axis which connects the centers of the circles is parallel to an axis of rotation of the connector 5 relative to the belt 2. The axis of rotation of the connector is defined by the through openings 7 and the elements of connection 8 associates.
It is particularly advantageous to provide that the through hole or holes 11 are partially defined in the body 6 and in the closing element 9 in order to facilitate the insertion of equipment into the through hole 11.
By way of example, the through hole or holes 11 are partially defined by a groove 6a in the body 6 and a groove 9a in the closing element 9. The groove preferably has a section in an arc of a circle, for example in half -circle. However, in order to facilitate the insertion of equipment into the through hole 11, it is particularly advantageous to provide that most of the through hole 11 is defined in the body 6.
It is then possible to install equipment, for example a cord forming a lifeline in the through hole 11. As illustrated in FIGS. 11 and 12, the equipment has a blocking stop B which prevents installation or removal equipment without dismantling the closure element 9. This solution provides better security compared to a through hole defined entirely in the body and which requires forming a knot at the end of the rope.
In a particularly advantageous embodiment and illustrated in Figures 1 to 10, the body 6 has a first cavity 12 cooperating with one end 9b of the closure element 9 so that said end 9b of the closure element 9 s' inserts into the cavity 12 to close the connection ring 10. The first cavity 12 can be a blind hole as shown in the different figures, but it is also possible to use a through hole or a plurality of elements in projection. In this configuration, the body 6 has a cavity 12 which cooperates with one end 9b of the closure element 9 in order to impose a displacement in one direction to close the connection ring 10.
In this way, when a force is applied by equipment located in the through hole 11, part of this force applied to the closing element 9 is taken up by the cavity 12 formed in the body 6 and therefore by the body 6 .
In the embodiment illustrated in Figures 1 to 10, the through hole or holes 11 are disposed between the first cavity 12 of the body 6 which cooperates with the end of the closure element 9 and the other end of the element closure 9 which is also fixed to the body 6 in order to close the connection ring 10. In this way, the forces applied to the closure element 9 by any equipment located in a through hole 11 are better taken up by the body 6.
It is also advantageous to provide that the body 6 has a second cavity 13 which is configured to cooperate with a cavity 14 of the closure element 9 so that the second cavity 13 is in the extension of the cavity 14 when the element closure 9 closes the connection ring 10. As illustrated in FIGS. 5 and 10, the body 6 has a through cavity 13 which opens into the zone of contact with the closure element 9. The closure element 9 also has a cavity 14 which faces the cavity 13 passing through the body 6 which allows the insertion of a blocker 15 which prevents the withdrawal of the closing element 9.
Advantageously illustrated in FIGS. 5 and 10, the body 6 has a second cavity 16 which is advantageously not through and which is in alignment with the cavity 13 and the through cavity 14 of the closing element 9 which allows the insertion of the blocker 15 in the body 6 on either side of the closure element 9.
This configuration makes it possible to better fix the blocker 15 in the connector 5. Preferably, a tapping is formed in at least one of the body cavities 6 and cooperates with a thread of the blocker 15. The blocker can be a screw, but other modes achievements are possible.
In a particular embodiment, the second cavity 13 and the through lumen 14 of the closure element 9 are arranged to allow the introduction of a blocker 15 along an insertion axis which is perpendicular to the axis of introduction of the closing element 9 into the first cavity 12. This embodiment is illustrated in FIGS. 5 and 10.
In a particularly advantageous manner, the blocker 15 is configured to prevent the withdrawal of the closure element and to ensure the mechanical continuity of the body 6. It is particularly advantageous to provide that the blocker 15 has a mechanical support with the body on each side of the closing element, that is to say in the cavities 13 and 16 to increase the mechanical strength of the connection ring 10.
As illustrated in Figures 11 and 12, the body 6 and the closure element 9 cooperate with a wire element 17 which is inserted into at least one of the through holes. The wired element 17 can be a rope or a strap. Advantageously, the wire element 17 has a circular section and the through hole 11 also has a circular section which facilitates the use of the wire element 17.
The first lateral fixing point 4a comprises a wire element 17, a first end of which is fixed to the connector 5 by means of at least one through hole 11. The second end of the wire element 17 is fixed to the second lateral fixing point 4b.
In a particularly advantageous manner, the wire element 17 has a first part having a cross section less than or equal to the cross section of the at least one through hole 11 so as to fit into said at least one through hole 11. The wire element 17 also has a second part having a section greater than the section of the at least one through hole 11 so as to form a locking stop B. The locking stop B is separated from the second lateral suspension point 4b by the first lateral suspension point 4a.
In this configuration, the locking stop is integrated as close as possible to the connector 5, which limits the total size of the first lateral fixing point.
Advantageously, the blocking stop B is devoid of a knot or comprises a sewn knot in order to improve security without increasing the bulk.
It is particularly advantageous to provide that the second lateral attachment point 4b is formed by a connector 5 which includes the technical characteristics which have just been presented. In one embodiment, the two connectors 5 are strictly identical.
In the embodiment illustrated in Figure 11 and which can also be used in the embodiment of Figure 12, the two ends of the wire element 17 are formed by a non-removable stop. For example, the stopper is formed by a seam, for example a knot made non-removable by means of a seam or a fold of the sewn wire element. This configuration greatly increases security by eliminating the possibility of forming a knot at one end of the wired element because the knot can evolve over time.
In an alternative embodiment, the body 6 or the closure element 9 of one of the connectors 5 includes a wired element blocker (not shown) in the embodiment illustrated in FIGS. 13 and 14. The blocker wire element is advantageously a cam blocker whose cam is mounted on an axis of rotation. The axis of rotation can be merged with the longitudinal axis of the closing element 9 if the cam is mounted on the closing element 9. Alternatively, the axis of rotation can be integrated into the body 6 if the cam blocker is mounted in the body 6.
It is particularly advantageous to form the cam blocker in the closure element 9 because the functionality can be installed or removed by simply changing the closure element 9 with a closure element 9 having or without the cam blocker.
The use of a cam blocker is particularly advantageous since the cam is configured to block the wired element 17 and is advantageously configured to be self-locking by means of the shape of the cam and / or by means of a spring which is configured to apply pressure to the wire element 17. In this way, the wire element 17 is blocked and the length of the wire element 17 is fixed.
Insofar as the cam is integrated in the connector 5, the size of the fixing point is minimal and the user can take advantage of the entire available length of rope between the two fixing points. In the prior art, it was necessary to tie a knot at one end of the wire element 17 or to hook the wire element 17 using a shackle or a carabiner. The other end could be attached to a blocker which was itself attached to the attachment point with a carabiner or a shackle. It is clear that the distance between the edge of the belt 2 and the useful end of the wire element 17 is relatively large, which complicates the work of the user.
The connector 5 makes it possible to increase the usable length of the wired element 17 by improving the integration of the wired element 17 in the first lateral attachment point. Equivalent work can be done for the second attachment point or even increased by directly integrating a wired element blocker 17 in the connector 5.
Of course, it is possible to install a rope blocker in each attachment point. In the embodiment illustrated in FIG. 12, a rope blocker is installed in the connection ring after disassembly of the closure element 9. It is also possible to provide that a through hole 11 is configured to allow the insertion of the blocker A of FIG. 12. The blocker is then mounted for rotation around the closing element 9.
It is also advantageous to provide that the closure element defines a groove 18 around the closure element 9 in the extension of the through hole 11. This groove allows better interaction between the wire element 17 and the connector 5. From advantageously, the closure element 9 has a groove which circles the closure element, that is to say which is in the extension of the groove 9a.
It is particularly advantageous to install the through hole 11 near the axis of rotation of the lateral attachment point 4 because this makes it easier to use the attachment point when the user is retained by the lifeline which is fixed to the through hole 11. The fixing ring 10 is pulled forward by the tension on the lifeline without being hindered by the lifeline.
In the embodiment illustrated in FIG. 11, the two connection rings 10 are easily accessible outside the space occupied by the lifeline.
The embodiment illustrated in Figure 11 has a connector 5 which defines two through openings 7, one of which is associated with a wired element and the other is left free. It is advantageous to use the second through opening 7 with a second wire element which is fixed to a second connector. The user can then use two different fixing points with two different lifelines which makes their daily work easier. The second wire element can have the same characteristics as the first wire element.
In the various embodiments illustrated, the body 6 has a hooking element 19 for a fifth wheel holder. The harness is not shown. The coupling element 19 of the fifth wheel holder is represented by a hole arranged in the lower part of the body. It is particularly advantageous to use a hooking element 19 which is located between the two through openings 7 and preferably equidistant from the two through openings 7 and even more preferably according to a plane of symmetry of the two through openings 7 so that the installation of the user on his harness holder does not change the orientation of the connectors or the movement of the user around his attachment point does not translate into sliding out of the harness holder.
In the illustrated embodiments, the fastening element 19 is a hole which is intended to cooperate with a connector such as for example a carabiner or a shackle, or else with a rope or a strap. It is particularly advantageous to use a carabiner or a shackle if you want to disassemble the harness. For permanent use, it is possible to use a rope or strap.
In an alternative embodiment, the hole 19 can be replaced by a projecting area which can have the shape of a hook. However, such a configuration is less advantageous because the protruding element can hang on the user or on a branch.
The proposed configuration allows very good alignment between the harness and the connector 5 without disturbing the interaction between the connector 5 and the wire element which ensures the user is kept at the anchor point.

权利要求:
Claims (10)
[1" id="c-fr-0001]
claims
1. Harness (1) comprising a belt (2), a pair of leg loops (3) and first and second lateral attachment points (4, 4a, 4b), characterized in that at least the first point of lateral fixing (4a) comprises a connector (5) fixed to the belt (11), the connector (5) being provided with a body (6) defining:
• at least one through opening (7) inside which passes a fastening element (8) to the belt (2), • a connection ring (10) separate from the at least one through opening (7 ), the connecting ring (10) being closed by means of a closing element (9) which is removably mounted, in which the closing element (9) and the body (6) define at least one through hole (11 ) separate from the at least one through opening (7) and from the connection ring (10), the closing element (9) separating the connection ring (10) and the at least one through hole (11) .
[2" id="c-fr-0002]
2. Harness (1) according to claim 1, wherein the closure element (9) and the body (6) define at least two through holes (11) distinct from the at least one through opening (7) and l 'connection ring (10), the closure member (9) separating the connection ring (10) and the at least two through holes (11), the at least two through holes (11) being advantageously aligned in a direction perpendicular to the longitudinal axis of the belt (2).
[3" id="c-fr-0003]
3. Harness (1) according to any one of claims 1 or 2, wherein the at least one through hole (11) is partially defined by a groove (6a) in the body (6) and a groove (9a) in the closing element (9).
[4" id="c-fr-0004]
4. Harness (1) according to any one of the preceding claims, wherein the body (6) has a first cavity (12) cooperating with one end (9b) of the closure element (9) so that said end (9b) of the closure element (9) is inserted into the first cavity (12) to close the connection ring (10).
[5" id="c-fr-0005]
5. Harness (1) according to any one of the preceding claims, in which the body (6) has a second cavity (13) cooperating with a through lumen (14) of the closure element (9) so that the second cavity (13) is in the extension of the through lumen (14) when the closure element (9) closes the connection ring (10).
[6" id="c-fr-0006]
6. Harness (1) according to the combination of claims 4 and 5, wherein the second cavity (13) and the through lumen (14) are arranged to allow the introduction of a blocker (15) along an axis of introduction which is perpendicular to the axis of introduction of the closure element (9) into the first cavity (12).
[7" id="c-fr-0007]
7. Harness (1) according to any one of the preceding claims, in which the first lateral attachment point (4a) comprises a wire element (17) of which a first end is fixed to the first connector (5) by means of at least a through hole (11), the second end of the wire element (17) being fixed to the second lateral fixing point (4b).
[8" id="c-fr-0008]
8. Harness (1) according to the preceding claim, wherein the wired element (17) has a first part having a section smaller than the section of the at least one through hole (11) so as to fit into said at least a through hole (11) and a second part having a section greater than the section of the at least one through hole (11) so as to form a blocking stop (B), the blocking stop (B) being separated from the second point lateral fixing point (4b) by the connector (5) of the first lateral fixing point (4a).
[9" id="c-fr-0009]
9. Harness (1) according to any one of the preceding claims, in which the body (6) defines a first through opening (7) fixed to the belt (2) by a first fixing element (8) and a first opening through (7) fixed to a thigh (3) by a first fastening element.
[10" id="c-fr-0010]
10. Harness (1) according to any one of the preceding claims, in which the second lateral attachment point comprises a connector (5) fixed to the belt (2), the connector (5) being provided with a body (6 ) defining:
• at least one through opening (7) inside which passes a fastening element (8) to the belt (2), • a connection ring (10) separate from the at least one through opening (7), the connecting ring (10) being closed by means of a closure element (9) mounted removably, and in which the closure element (9) and the body (6) define at least one through hole (11) separate from the at least one through opening (7) and from the connection ring (10), the closing element (9) separating the connection ring (10) and the at least one through hole (11).

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同族专利:

公开号 | 公开日

EP3466493A1|2019-04-10|

FR3072034B1|2019-11-08|

CN209848172U|2019-12-27|

EP3466493B1|2020-09-23|

ES2831006T3|2021-06-07|

US20190105521A1|2019-04-11|

US11077326B2|2021-08-03|

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FR3049869B1|2016-04-08|2018-06-22|Zedel|HARNESS|

FR3055809B1|2016-09-15|2018-10-05|Zedel|HARNESS EQUIPPED WITH ERGONOMIC CONNECTION POINTS|

GB2557308B|2016-12-06|2020-06-24|Treemagineers Ltd|Harnesses|

US10343001B2|2017-09-07|2019-07-09|Honeywell International Inc.|Fall protection lanyard capable of direct connection to harness webbing|FR3067942B1|2017-06-26|2019-08-23|Zedel|CONNECTING HARNESS|

DE102019121171B4|2019-08-06|2021-04-29|Skylotec Gmbh|Belt to be placed on a person to be secured with a webbing bridge|

US11136098B2|2019-08-19|2021-10-05|Goodrich Corporation|Integrated lifeline and geometric restraint|

FR3111082A1|2020-06-06|2021-12-10|Zedel|TIE-IN HARNESS|

法律状态:
2018-09-13| PLFP| Fee payment|Year of fee payment: 2 |

2019-04-12| PLSC| Search report ready|Effective date: 20190412 |

2019-09-13| PLFP| Fee payment|Year of fee payment: 3 |

2020-09-14| PLFP| Fee payment|Year of fee payment: 4 |

2021-09-13| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

申请号 | 申请日 | 专利标题

FR1759410A|FR3072034B1|2017-10-06|2017-10-06|HARNESS|

FR1759410|2017-10-06|FR1759410A| FR3072034B1|2017-10-06|2017-10-06|HARNESS|

ES18197277T| ES2831006T3|2017-10-06|2018-09-27|Harness|

EP18197277.9A| EP3466493B1|2017-10-06|2018-09-27|Harness|

CN201821620206.4U| CN209848172U|2017-10-06|2018-09-30|Protective belt|

US16/155,002| US11077326B2|2017-10-06|2018-10-09|Harness|

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