Source: https://patents.google.com/patent/ES2298474T3/en
Timestamp: 2020-08-07 10:42:28
Document Index: 163211515

Matched Legal Cases: ['art 12', 'art 14', 'art 12', 'art 14', 'art 12', 'art 14', 'art 12', 'art 14', 'art 14', 'art 12', 'art 12', 'art 12', 'art 14', 'art 14', 'art 14', 'art 12', 'art 12', 'art 12', 'art 12', 'art 64', 'art 12', 'art 64', 'art 12', 'art 72', 'art 12', 'art 14', 'art 72', 'art 12', 'art 14', 'art 12', 'art 14', 'art 12', 'art 14', 'art 12', 'art 14', 'art 64', 'art 12', 'art 14', 'arts 12', 'arts 12']

ES2298474T3 - Buckle and fixing structure of a belt. - Google Patents
Buckle and fixing structure of a belt. Download PDF
ES2298474T3
ES2298474T3 ES03252491T ES03252491T ES2298474T3 ES 2298474 T3 ES2298474 T3 ES 2298474T3 ES 03252491 T ES03252491 T ES 03252491T ES 03252491 T ES03252491 T ES 03252491T ES 2298474 T3 ES2298474 T3 ES 2298474T3
ES03252491T
Jordi Badrenas Buscard
2002-04-17 Priority to US37335302P priority Critical
2002-04-17 Priority to US373353P priority
2003-02-14 Priority to US366744 priority
2003-02-14 Priority to US10/366,744 priority patent/US6757944B2/en
2003-04-17 Application filed by Illinois Tool Works Inc filed Critical Illinois Tool Works Inc
2008-05-16 Publication of ES2298474T3 publication Critical patent/ES2298474T3/en
Y10T24/45539—Cooperating with cavity having side walls and axially biased component capping end
A strap fixing structure, to be used in a piece of a two-piece buckle, said strap fixing structure (40, 50) comprising: a flexible part (44, 62) around which the belt can be wound belt, adapted to yield to a load applied against said structure (40, 50) for fixing the belt, by a belt fixed thereto, and a less flexible part (42, 56) associated with said flexible part (44, 62) to be rolled together by a belt (16, 18).
Buckle and fixing structure of a belt.
The present invention is related in general with two-piece buckles, which have two components of male and female interconnection, to be used in clothing, sportswear, luggage, safety equipment and Similar.
Buckles are known for use in many different constructions, including, for example, clothing, clothing sports, luggage, safety equipment and other equipment and Similar. The two-piece buckle sets are known in A diversity of different constructions. In a two buckle pieces, first and second buckle pieces are arranged, cooperating with the structure, which have components of mutual interlocking, allowing the interlocking of the component coupling.
For a two-piece buckle, it is known how dispose of a female buckle component attached to a part of a article, and a buckle male component attached to another part of the Article. For example, the female component can be anchored to a bag or luggage and the male component can be attached directly to a lid, cover or flap of the bag or luggage. Alternatively, one or both components may be attached to a belt or similar. It is also known how to arrange the components male and female at opposite ends of a belt or belt, or in separate straps of items to connect together. He buckle male component defines a chamber or cavity that It has one or more windows. The female component of the buckle includes one or more arms that can slide into the cavity, with Highlights on the arms that extend into each window defined in the female component of the buckle. The coupling of the protrusions of the arms in the windows of the cavity serves to interlock the two pieces together. The decoupling is achieved pressing the highlights out of the windows while pulling of the male and female components separating them. By pressing the projections flex the arms, and the thickness and elasticity of the arms directly affects the decoupling resistance of the male and female parts of the buckle.
Two piece buckles are also used on adjustable straps such as straps on sports helmets, straps over the shoulder and waist, backpacks, bags and the like. To provide adjustable length straps, a or both pieces of the buckle to the strap to which it is anchored, by a winding belt winding through two or more buckle piece bars. The remaining part of the buckle it can be attached to the belt to which it is anchored by means of a simple curl and sewing, if length adjustment is required in Only one piece of the buckle.
A problem that can be experienced with the two-piece buckles occurs when a tension load is applied to the buckle, usually through the straps. Buckles on the shoulder straps of the bags, for example, may experience a slow increase in the tension load, when the bag is lifted by one or more of the straps. The buckle will also experience a sustained, relatively constant tension load, if the bag is carried or held with the strap or straps supporting the weight of the bag. The buckle may also experience a shock load, for example, if it is pulled or pulled from a support. Sportswear, safety equipment and other applications such as these may exert such shock loading forces as a result of the intended use. Such loads are applied directly against the anchoring properties of the male and female components of the buckle. The buckle components must be robust enough to withstand such forces without breaking or unintentionally disengaged. However, if the arm or arms of the male component of the buckle become simply stiffer or thicker to resist breaking, they may become unacceptably resistant to the intended deflection to disengage the buckle. To make the buckle easier to operate, the arms can be made
longer. However, the resulting increase in size of the buckle is not desirable in some applications and uses.
What is needed in the art is a two-piece buckle structure that can absorb loads of shock and resist sustained loads or that increase more smoothly without breaking
The document US-B-3,789,467 is related to first and second parts of a chin strap of a helmet that are connected, respectively, to some members first and second to hook a buckle connector. The first member hitch includes an outgoing part and the second member of hitch includes a pair of rotating claws to engage with The first hitch member. There is a spring that acts on the claws to press them into an operational position, in which the First hitch member is hooked by the claws. He first hitch member is hooked guided by side walls of the second hitch member in the course of coupling and decoupling with the claws, to restrict the lateral movement of the first hitch member.
The document EP-A-0855154 is related to a high security buckle (10), which includes a pair of flexible interlocks (26, 28) laterally releasable and a third interlock (34) accessible from the front of the buckle. There is a male part (12) of the buckle that fits inside of a tubular body (40) of a female part (14) of the buckle. The decoupling of the male part can be achieved by tightening the gripping bodies (30, 32) of the release interlocks lateral, towards each other, while pressing the third body (36) of grip towards the body of the female part, so enough for the three interlocks to disengage simultaneously.
The document US-A-3,075,268 is related to a buckle for a strap that has a flexible crossbar (19) extending between the lateral members in a position intermediate of the crossed members (11 and 17). The crossbar flexible has an arched shape and is normally inclined in the cross member address (13). The flexible bar (19) is adapted to flex between the tensioned belt position and the belt position without tensioning. This type of buckle belongs to the kind of buckle associated with straps, bands, tapes or similar, to support and adjust clothing, such as underpants, bras, underwear of various kinds, harnesses and the like, to a person's body.
The present invention provides a structure elastic integrated with the structure of the buckle parts, so that the loads exerted on it can be absorbed.
In a form thereof, the present invention provides a two piece buckle comprising a piece of female buckle (14) that defines a cavity (30), and that includes a first strap fixing structure (40), a male part (12) of the buckle that includes a front part (22, 24, 26, 28, 78) that can be inserted into said cavity (30) and that includes a second strap fixing structure (50), and defining said female part (14) of the buckle and said male part (12) of the buckle a cooperative releasable interlocking structure, characterized in that one or both of the structures first and Second strap fixing comprise a flexible part (44, 62) around which the belt can be wound, adapted to yield to a load applied against said structure (40, 50) of fixing the strap by a strap attached to it, and a part less flexible (42, 56) associated with said flexible part (44, 62) to be rolled together by a belt.
Preferably, the present invention also provides a male part of the buckle for a buckle two-piece, which has a female part of the buckle that defines a cavity that has side windows and a groove. The piece buckle male has a body and arms spaced first and secondly they extend from the body and are adapted and arranged to slide in and out of the cavity of the piece buckle female. The arms have lateral highlights received in the windows. Between the arms is a clamp connected to each arm near the body, and has a central part which forms an angle that opens as it moves away from body.
In another form thereof, the present invention provides a strap fixing structure to be used in a two-piece buckle piece, comprising said belt fixing structure (40, 50) a part flexible (44, 62) around which a belt can be wound, adapted to yield to a load applied against said structure (40, 50) of fixing the belt, by a belt fixed to it, and a less flexible part (42, 56), associated with said flexible part (44, 62) to be wound together by a belt (16, 18).
An advantage of the present invention in provide buckle parts that can better absorb forces such as a load of tension applied to it through the Straps to which they are attached, without breaking, do not disconnect.
Another advantage of the present invention is provide a male buckle piece for a two buckle pieces, with stronger arms and less likely to break, but that can be easily flexed for operation and use of the buckle.
Another advantage of the present invention is provide a buckle design that uses the material so Efficient, compact and provides increased capabilities load bearing with respect to buckle size.
Embodiments will now be described individuals according to this invention, with reference to accompanying drawings, in which:
Figure 1 is a perspective view of a two piece buckle of the present invention, which shows the top of the buckle with the two pieces of it illustrated in a connection arrangement;
Figure 2 is a perspective view, substantially from the bottom that shows the buckle of two pieces of figure 1, with the two pieces thereof illustrated in a disconnection provision;
Figure 3 is a top plan view of the buckle, as illustrated in figure 2;
Figure 4 is a side elevational view of the buckle, as illustrated in figure 2; Y
Figure 5 is a plan view similar to the of figure 3, but showing the bottom of the buckle.
Referring now more specifically to the drawings, and to figure 1 in particular, a buckle is illustrated 10 of two pieces, in accordance with the present invention. The buckle 10 includes a male part 12 of the buckle, which can be received and releasably locked in a female part 14 of the buckle. The buckle 10 can be made of a variety of materials, numerous plastics being suitable.
Buckle 10 may be associated with a diversity of different items, such as luggage, clothes, safety equipment and the like. The male part 12 of the buckle is attached to an article or part of it and, as illustrated, it sample attached to a strap 16. The female part 14 of the buckle is anchored to another article or part of it, such as belt 18 Illustrated in the drawings. It should be understood that straps 16 and 18 they could also be the opposite ends of a single piece of a band, for example when buckle 10 is used for a belt. The bands 16 and 18 are illustrated in Figure 1 and, by reasons of clarity, are shown as a band designated with the same numerical reference in figures 2 and 3.
The way in which the male part 12 of the buckle is released releasably and is connected to the Female part 14 of the buckle, is known to experts in the technique, and can adopt numerous different configurations. In the exemplary embodiment illustrated, a connection structure 20, which includes a male part 12 of the buckle that has protruding arms 22 and 24 forward, with elongations or lateral projections 26 and 28. The piece female 14 of the buckle defines in it a hollow chamber or cavity 30, which has side windows 32 and 34. Windows 32 and 34 they have such a size and are arranged so that they receive in they stand out 26 and 28 of arms 22 and 24, respectively. Arms 22 and 24 flex inward as the piece male 12 of the buckle is inserted into female part 14 of the buckle, and jump out to expose the highlights 26 and 28 through the windows 30 and 32 of the female part 14 of the buckle, when the male part 12 of the buckle is inserted totally. The male part 12 of the buckle is released from the part female 14 buckle pushing in on the protrusions 26 and 28, while pushing the male part 12 of the buckle and a the female part 14 of the buckle in opposite directions.
In accordance with the present invention, each of the male 12 and female 14 parts of the buckle is provided with Integrated elastic structures to absorb tension load exercised against interlocking structure 20 or against individual pieces 12 and 14 of the buckle.
The female part 14 of the buckle includes a first strap fixing structure 40, by means of the which strap 18 is attached to the female part 14 of the buckle. The structure 40 has a base bar 42 and a flexible bar 44 spaced each other. Flexible bar 44 is relatively thin compared to base bar 42, and base bar 42 is less flexible than flexible bar 44. Belt 18 is wound together around the base bar 42 and the flexible bar 44 in a single loop, which bends over itself. The part of overlapping end of the belt 18 is fixed on itself by means of a seam, rivet, adhesion or other system of fastening (not illustrated). Being held in this way, the length Effective strap 18 is not easily adjustable. According to the width of the belt 18, the strength and elasticity of the material from which the buckle 10 is made and of the forces planned to be experienced, a series of fixing support members 46 between the base bar 42 and the bar flexible 44. For narrow buckles 10, and for applications of Low weight, fixing support members 46 are not required. The tension forces exerted on the buckle 10 are absorbed, by less partially, by means of the displacement or deflection of the flexible bar 44.
The male part 12 of the buckle has a second adjustable belt structure 50, whereby the belt 16 is held in position with respect to the male part 12 of the buckle. The belt fixing structure 50 includes a body 52 that defines a first rear bar 54 for hitching the band and a second front bar 56 for hitching the band, spaced apart to form a groove 58 for receiving the band. The belt 16 is routed in a meandering manner through the body 52, intertwining around the bars 54 and 56, in a known manner, as illustrated. The effective length of the belt 16 is adjusted by displacing the position of the male part 12 of the buckle, along the length of the belt 16. The front bar 56 includes a cavity 60 (Figures 2 and 5) that substantially extends along its length to form a narrow and flexible leading edge 62. Parts of the bar 56 at the rear of the cavity 60 are less flexible than the leading edge 62. The belt 16 is wound on a substantial part of the front bar 56, including the flexible leading edge 62 and the less flexible parts of the bar 56. Under severe loading conditions, the forces exerted on the male part 12 of the buckle by the belt 16 result in a large torque against the leading edge 62 due to the linked configuration of the belt 16 in the structure 50 Fixing. The forces exerted on the buckle 10 in this way are absorbed, at least partially, by the displacement or deflection of the flexible edge.
front 62.
Arms 22 and 24 protrude forward from body 52, substantially parallel to each other, but not with a linear alignment with respect to the body 52. As can be seen more clearly in figure 4, a front part 64 of the male part 12, including arms 22 and 24 thereof, is arranged at an angle, and not with a linear alienation, with with respect to body 52. Arms 22 and 24 are attached to body 52 by means of narrowed segments 66 and 68 of connection, respectively, preferably formed by means of a cut lower at the inside of the angle formed between the part front 64 and body 52. In this way, segments 66 and 68 connection works like a hinge, allowing certain relative displacement between the front 64 and the body 52. Again, the forces exerted on the buckle 10 through the belts 16 and 18 are absorbed, at least partially, by the relative displacement between the front part 64 and the body 52, articulated around segments 66 and 68 of Connection.
In addition to arms 22 and 24, the front 64 of the male part 12 of the buckle includes a clamp 70 connected between arms 22 and 24, at the bases thereof just ahead of connection segments 66 and 68. The clamp 70 has a generally curved v-shaped shape, arranged essentially in the same plane as arms 22 and 24. The clamp 70 has a central part 72, or vertex, that opens angled to the distal ends 74 and 76 of arms 22 and 24, respectively. Cooperating with narrow segments 66 and 68 connection, the curved clamp 70 facilitates lateral movement of the distal ends 74 and 76, while providing a reinforcement against the breakage of arms 22 and 24. As a result of hinge-like effect created by segments 66 and 68 of connection, and due to the curved v-shape of the clamp 70, the arms 22 and 24 can be made of heavy and strong material, and still the necessary for the connection and disconnection of the male part 12 of the buckle, from the female part 14 of the buckle. Arms 22 and 24 can be made sufficiently strong to resist breaking without unacceptably difficult to flex laterally, as the use requires of buckle 10.
A guide pin 78 projects forward from the clamp 70, in the central part 72 thereof, substantially in the same plane as arms 22 and 24. The pin 78 is received in a guide groove of the cavity 30, to direct and align front 64 as it is inserted into the cavity 30
Although male part 12 of the buckle has been illustrated and described in this document with an adjustable structure 50 fastening a strap, and the female part 14 of the buckle has been illustrated and described with a fixing structure 40 not adjustable of a strap, it should be understood that, in some applications and uses of buckle 10, both pieces 12 and 14 of the buckle can be provided with 50 adjustable structures of strap fixing. Alternatively, both pieces 12 and 14 of the buckle may be provided with non-adjustable structures 40 of fixing the strap, or the male part 12 of the buckle can be provided with a non-adjustable structure 40 for fixing the strap, and the female part 14 of the buckle may be provided with an adjustable strap fixing structure 50. The advantages obtained by the various integrated elastic structures described, are achieved regardless of their association with some 12 or 14 pieces male or female buckle, or with any particular belt fixing structure.
In the use of the present invention, the normal operations to connect and disconnect the male part 12 of the buckle and the female part 14 of the buckle are fitted with a known way. To connect the buckle parts, it is inserted the male part 12 of the buckle in the cavity 30 of the female part 14 buckle. Distal ends 74 and 76 of configurations rounded in gradual decline fit the surfaces inside the cavity 30 to flex the arms inwards, as the front part 64 is forced to penetrate the cavity 30. The laterally extending parts of the projections 26 and 28 line up with windows 32 and 34, allowing the arms 22 and 24 move outward to positions no strained of each one. The male part 12 of the buckle looks like this connected to the female part 14 of the buckle, with the protrusions 26 and 28 extending out through windows 32 and 34. To disconnect pieces 12 and 14 from the buckle, tighten on the highlights 26 and 28 together, pushing each one in and thereby out of windows 32 and 34 while pulling simultaneously from pieces 12 and 14 to separate them.
During normal expected and designed use of the buckle 10, various elastic structures are not required. Without However, if an excessive load or shock load is applied to the buckle 10, through straps 16 and 18, the various elastic structures work by absorbing at least a part of the load, reducing the potential rupture or accidental disconnection of Parts 12 and 14 of the buckle. The flexible bar 44 and the edge flexible front 62 can move by applied force directly on them by straps 16 and 18. The relationship angular between the front 64 and the body 52 can be flattened, as the displacement takes place around the connection segments 66 and 68. Each of these movements absorbs the energy applied to parts 12 and 14 of the buckle, mitigating any destructive impact. Even when used thicker arms 22 and 24 to withstand the break, the deflection of distal ends 74 and 76 without having to lengthen arms 22 and 24, as a result of the hinge effect of the narrowed segments 66 and 68 of connection and clamp curved 70.
The present invention is particularly suitable for use in buckles of two pieces of various configurations, including those that are different from the examples of described embodiments. For example, the various integrated elastic structures that have been described can be also used in two-piece buckles that have only one or more of two arms. Flexible bars of structure 40 and 50 strap fixing can be used advantageously on other devices connected to belts, including buckles of other types, as well as in structures other than buckles. The advantageous belt fixing structures of the present invention include a flexible part and a less flexible part coiled together by the belt. Elastic structures described in relation to body 52 and front 64, They can also be used with other structures.
The present invention provides a buckle and individual components of buckles that can withstand loads of shock applied to the buckle, such as straps on the straps or in items attached to the buckle. A male component of a buckle can be provided with thicker strong arms, without make buckle operation difficult. Flexible design of the buckle parts, with improved resistance, makes Possible stronger and more compact buckles.
1. A strap fixing structure, to be used in a piece of a two-piece buckle, said structure (40, 50) comprising fixing the belt:
a flexible part (44, 62) around which the belt can be rolled up, adapted to yield to a load applied against said belt fixing structure (40, 50), by a strap attached to it, and
a less flexible part (42, 56) associated with said flexible part (44, 62) to be rolled together by a belt (16, 18).
2. A two piece buckle, comprising:
a female part (14) of the buckle that defines a cavity (30) and that includes a first structure (40) of strap fixation,
a male part (12) of the buckle that includes a front part (22, 24, 26, 28, 78) that can be inserted into said cavity (30) and that includes a second structure (50) of strap fixation; Y
defining said female part (14) of the buckle and said male part (12) of the buckle a cooperating structure of releasable interlocking;
characterized in that one or both first and second belt fixing structures comprise a belt fixing structure, according to claim 1.
3. The strap fixing structure or the buckle of claim 1 or claim 2, wherein said flexible part is a flexible bar (44) or a leading edge flexible (62).
4. The strap fixing structure or the buckle of claim 3, wherein said flexible part is a first integrated elastic structure (44, 62).
5. The strap fixing structure or the buckle according to any of the claims precedents, wherein said less flexible part is a base bar (42) or a second front bar (56) that engages with the band.
6. The strap fixing structure or the buckle according to any of the claims precedents, wherein said at least one of said structures first and second strap fixing includes the least part flexible (42, 56) and said flexible part (44, 62) spaced between yes.
7. The strap fixing structure or the buckle according to any of the claims precedents, wherein said first or said second structures (40, 50) strap fixing include support members of fixing (46) between said base bar (42) and said flexible bar (44).
8. The buckle according to any of the claims 2 to 7, wherein said male part (12) of the buckle includes a narrowed segment (66, 68) of connection, between said front part (22, 24, 26, 28, 78) and said second strap fixing structure (50), allowing deflection of said front part (22, 24, 26, 28, 78) with respect to said second strap fixing structure (50) and with it provide a second integrated elastic structure.
9. Buckle according to any of the claims 2 to 8, wherein said front part includes first and second spaced arms (22, 24), having each arm (22, 24) a distal end (26, 28) adapted to engage and unhook said female part (14) from the buckle, by the displacement of said distal end, and a clamp (70) connected to said arms (22, 24) and having a central part (72) that forms an angle when approaching said distal ends (26, 28).
10. Buckle according to any of the claims 2 to 9, wherein said first elastic structure includes a second front bar (56) for hitching with the strap, which has a flexible leading edge (62).
11. The buckle as claimed in any of claims 2 to 10, wherein said male part (12) of the buckle for a two piece buckle (10) has one piece female (14) buckle that defines a cavity (30) that has side windows (32) and a groove, said part comprising male (12) buckle:
a body (52),
first and second spaced arms (22, 24) that extend from said body and are adapted and arranged to slide in and out of the cavity (30) in the female part (14) of the buckle, having said arms (22, 24) side projections (26, 28) that, during use, are received in the windows (32), and
a clamp (70) between said arms (22, 24) connected to each of said arms (22, 24) near said body, said clamp (70) having a central part (72) that it forms an angle when moving away from said body.
12. The buckle of claim 11, which includes a guide pin (78) that extends outward from said clamp (70), between said arms (22, 24), arranged with said arms for sliding in the groove of the cavity (30).
13. The buckle according to claim 11 or the claim 12, which includes connecting segments (66, 68) between said arms (22, 24) and said body, and a lower cut in said connection segments
14. The buckle according to claim 13, in the that said arms (22, 24) are arranged at an angle with with respect to said body, and said lower cut is arranged in an internal part of said angle.
ES03252491T 2002-04-17 2003-04-17 Buckle and fixing structure of a belt. Active ES2298474T3 (en)
US37335302P true 2002-04-17 2002-04-17
US373353P 2002-04-17
US366744 2003-02-14
US10/366,744 US6757944B2 (en) 2002-04-17 2003-02-14 Side release buckle with spring
ES2298474T3 true ES2298474T3 (en) 2008-05-16
ID=28678173
ES03252491T Active ES2298474T3 (en) 2002-04-17 2003-04-17 Buckle and fixing structure of a belt.
US (1) US6757944B2 (en)
EP (1) EP1354531B1 (en)
KR (1) KR101006074B1 (en)
AT (1) AT382277T (en)
DE (1) DE60318346T2 (en)
ES (1) ES2298474T3 (en)
TW (1) TWI239818B (en)
KR200442058Y1 (en) * 2007-04-25 2008-10-08 천종태 finishing materials of suit belt
ES2322743B1 (en) * 2007-06-29 2010-04-06 Zobele España, S.A. Quick release buckle with media diffusers of volatile substances.
KR101500679B1 (en) * 2013-09-24 2015-03-09 주식회사 인텍 Guard for protecting freight
US10588383B2 (en) * 2016-02-05 2020-03-17 Ykk Corporation Buckle
US10306951B2 (en) * 2016-08-01 2019-06-04 Doskocil Manufacturing Company, Inc Metal buckle
US10610728B2 (en) 2016-12-27 2020-04-07 Bootymaker, Llc Devices and methods for targeted isolation and exercising of the gluteal muscles
US1877677A (en) * 1932-06-04 1932-09-13 Ben B Manaster Garment connecter
US3075268A (en) * 1961-02-09 1963-01-29 S & S Ind Inc Adjusting strap buckle
US3369278A (en) * 1965-11-08 1968-02-20 Charles D. Humphreys Reversible belt and buckle having stretch character
JP3418538B2 (en) * 1997-12-24 2003-06-23 ワイケイケイ株式会社 Belt mounting structure of synthetic resin buckle
JP4166875B2 (en) * 1998-10-01 2008-10-15 株式会社ニフコ buckle
US6324733B1 (en) * 1999-11-24 2001-12-04 Ryan L. Brown Adjustable, quick release clasp
2003-02-14 US US10/366,744 patent/US6757944B2/en active Active
2003-04-17 AT AT03252491T patent/AT382277T/en not_active IP Right Cessation
2003-04-17 EP EP03252491A patent/EP1354531B1/en not_active Expired - Fee Related
2003-04-17 TW TW92109185A patent/TWI239818B/en not_active IP Right Cessation
2003-04-17 DE DE2003618346 patent/DE60318346T2/en active Active
2003-04-17 KR KR1020030024299A patent/KR101006074B1/en not_active IP Right Cessation
2003-04-17 ES ES03252491T patent/ES2298474T3/en active Active
KR20030082480A (en) 2003-10-22
US20030196302A1 (en) 2003-10-23
TWI239818B (en) 2005-09-21
EP1354531A2 (en) 2003-10-22
EP1354531B1 (en) 2008-01-02
AT382277T (en) 2008-01-15
US6757944B2 (en) 2004-07-06
DE60318346D1 (en) 2008-02-14
TW200306793A (en) 2003-12-01
EP1354531A3 (en) 2004-08-04
DE60318346T2 (en) 2008-12-18
KR101006074B1 (en) 2011-01-06
EP1325690B1 (en) 2013-09-04 Attachment structure for buckles
AU2002243815B2 (en) 2006-05-04 Safety harness
EP2064967B1 (en) 2012-07-18 Wire cable reinforced carrying strap
ES2610577T3 (en) 2017-04-28 Apparatus and method of assembly and release of garment
EP0235154B1 (en) 1990-02-07 Safety garment
US7100249B2 (en) 2006-09-05 Buckle