法国专利FR3042016A1 TIGHTENING CLAMP WITH SPACER

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专利摘要:
The collar comprises a belt (10) wound on itself and having two ends having raised ears (12, 14) adapted to be brought together to tighten the collar. The collar has a spacer (22) having a sole (24) extending between the ends (10A, 10B) of the belt and a core (26) comprising at least a first leg raised with respect to the sole and extending between the ears. The spacer is formed by a plate folded between a first folding at the junction between the first tab and the sole (24) and a second folding located at a first end of the sole, the sole having a first portion doubled between the first and second folds.
公开号:FR3042016A1
申请号:FR1559350
申请日:2015-10-01
公开日:2017-04-07
发明作者:Stephane Drivon；Fabrice Prevot
申请人:Etablissements Caillau SAS；
IPC主号:

专利说明:

The present disclosure relates to a clamp comprising a belt wound on itself in a substantially cylindrical contour and having two ends having ears, raised relative to said contour and adapted to be brought together to tighten the collar, the collar further comprising a spacer having a sole extending substantially in said contour between the ends of the belt and a core comprising at least first leg, raised relative to said sole and extending between the ears.
The sole of the spacer serves to bridge the space between the ends of the belt, to ensure a quasi-continuous support on the object clamped by the collar, in particular, for example when this object is a pipe clamped on a tube in which circulates a fluid, to ensure tightness of the clamping.
A collar of this type is known from US Pat. No. 7,055,223. In this collar, the ears have bores through which the stem of a tightening screw passes, the head of which is retained behind both ears, while one nut is held behind the other ear. The core of the spacer has, in radial section, that is to say perpendicular to the axis of the cylindrical contour, a V-shaped, the branch ends of which support respectively against the inner faces of the ears in a remote region of the axis. The sole comprises sole portions, cut in the branches of the V. As these branches also have holes for the passage of the clamping rod, these sole portions are cut in areas of the spacer that s extend between these holes and the lateral ends of the spacer. Thus, the sole portions have a small width, measured parallel to the axis of the substantially cylindrical contour, this width being very significantly smaller than the total width of the spacer. These sole portions are in fact thin cut strips, whose contact surfaces with the object to be clamped by the collar are weak. In theory, the sole of the spacer serves to ensure continuous contact with the object to be clamped, by bridging the space between the ends of the belt. However, as just indicated, the sole of this prior art takes is actually formed by several portions of sole shaped thin strips having a low contact surface with this object. As a result, the continuity of support is random since a large part of the surface of the object located between the ends of the belt is not covered by the strips. In addition, these strips are in themselves mechanically weak and may deform under the effect of significant tightening forces.
It is also known, for example from document WO 2011/011773, a spacer formed by a massive stud disposed between the ears. This spacer is relatively expensive to manufacture, has a relatively high mass and a very high rigidity, so that its shape does not adapt to the reduction of the diameter of the belt operated during the tightening.
According to one aspect, the invention aims to remedy these drawbacks of the state of the art by proposing a collar provided with an inexpensive spacer to be manufactured while allowing efficient bridging of the space between the ends of the the belt.
Thus, the present disclosure relates to a clamp comprising a belt wound on itself in a substantially cylindrical contour and having two ends having ears, raised relative to said contour and adapted to be brought together to tighten the collar, the collar comprising in addition to a spacer having a sole extending substantially along said contour between the ends of the belt and a core comprising at least a first leg, raised relative to said sole and extending between the ears, collar in which the spacer is formed by a folded plate and has a first fold located at the junction between said first leg and the sole * and a second fold at a first end of the sole, the Sèmelle having a first portion doubled between said first and second folds.
Thus, the spacer is formed by a simple folded plate which can therefore easily be made to the desired size and is inexpensive to manufacture. Indeed, depending on the diameter of the collar and the length of the space to be bridged between the ends of the belt, the wafer can be cut to the desired size and the first and second bends be made at the desired locations. In addition, the sole has a first doubled portion, which locally increases its rigidity while allowing a slight deformation during tightening, due to the fact that it is made from a strip and not from a massive element . Finally, the soleplate may thus have a continuous bearing surface on the object to be tightened to effectively bridge the space between the ends of the belt without, unlike that of US Pat. No. 7,055,223, leave a large surface area of this object without support by the sole.
Optionally, the core further has a second tab that extends against the first leg so that the soul is doubled.
In this case, the thickness of the core is twice the thickness of the wafer.
Optionally, the spacer has a third fold located at the second end of the sole, the sole having a second portion doubled between the third fold and the core.
In this case, the sole has two doubled portions, the first doubled portion extending from one side of the core to the first end of the sole, and the second doubled portion extending from the other side. from the soul, to the second end of the sole opposite the first end. The sole is thus reinforced over its entire length, this length being measured along the circumference of the belt and, in a balanced manner on both sides of the core. These two doublings, on both sides of the core, optimize the distribution of reaction forces between the sole of the spacer and the object clamped with the collar.
Optionally, the spacer has a fourth fold located at the junction between the second leg and the sole, the sole having a second portion doubled between said fourth fold and the second end of the sole.
As will be seen in the following, the fourth folding can be present with only the first and second folds, or with the first and second and third folds. Whatever the case may be, the existence of this fourth folding also makes it possible to endow the sole with a second doubled portion, on the opposite side of the core with respect to the first doubled portion.
Optionally, the core has at least one lateral protrusion and / or at least one protrusion extending from said at least one first lug.
In particular, as will be seen in the following, such an outgrowth acts as a position coding and facilitates the handling of the spacer.
Optionally, the ears have holes, and the collar has a clamping rod through these holes.
Optionally, the core has a bore also traversed by the clamping rod.
Optionally, the collar comprises at least one washer retained on the clamping rod on one side of the core.
Such a washer makes it possible to pre-position the spacer on the clamping rod, thus favoring its correct positioning relative to the object to be clamped by the collar.
Optionally, each of the two legs of the core has a bore, these holes being off-center.
A slight offset also allows to pre-position the spacer on the clamping rod. Indeed, if the dimensions of the holes are just sufficient to allow the passage of the screw shank in each bore, this offsetting naturally rub the rod of the screw against the edges of the holes thus maintaining the spacer by friction on the rod.
Optionally, the belt and the spacer are metallic.
In particular, the metal used is stainless steel. It can be the same metal for the belt of the collar and the spacer in which the spacer is made. The invention will be better understood and its advantages will appear better, on reading the detailed description which follows, of embodiments shown by way of non-limiting examples. The description refers to the accompanying drawings, in which: - Figure 1 is a perspective view of a clamp according to one embodiment, in the untightened state; FIG. 2 is an end view of the collar of FIG. 1; FIG. 3 is a perspective view of the spacer of the collar of FIGS. 1 and 2; FIG. 4 is an end view of the spacer of FIG. 3; - Figure 5 is a view along the arrow V of Figure 4; FIG. 6 is a flat view of the plate in which the spacer is made; and - Figures 7, 8 and 9 are end views of a spacer according to variants.
The clamp shown in Figures 1 and 2 comprises a belt 10 wound on itself in a substantially cylindrical contour of axis A. The ends 10A and 10B of this belt have ears respectively 12 and 14, raised relative to the cylindrical contour and able to be brought together to tighten the collar. In a manner known per se, these lugs have holes (for example, see the piercing 13 of the lug 12 in FIG. 1) to allow the passage of a clamping rod 16 cooperating with clamping members resting on the ears to tighten the collar. In this case the clamping rod is the rod of a screw whose head 16A, which forms a first clamping member, is supported behind the ear 12, and a nut 17 screwed on the rod 16 forms the second member clamping support behind the ear 14. The tightening of the nut causes the approximation of the ears and, therefore, the tightening of the collar. Overall, the belt 10 and its lugs 12 and 14 are of the type described in WO 2006/109001, WO 2006/109002 and WO 2010/004233.
The ears 12 and 14 are vis-à-vis, on the other side of a clamping space 20 delimited between the ends 10A and 10B of the belt. In this case, each of the ears has a front portion, respectively 12A and 14A, which for each ear, is turned towards the other ear, that is to say towards the clamping space 20. The ears present each also a bearing portion, respectively 12B and 14B with which cooperates a clamping member, respectively 16A and 17. The bearing portions are located at the rear of the ears, opposite the front portions 12A and 14A above . In this case, the ears 12 and 14 are ears with extension. This means that for each ear, the support portion is formed in an extension of the ear which is folded towards the back of the ear opposite to the other ear of the pair. Of course, the front portions 12A and 14A, as well as the rear portions 12B and 14B have holes allowing the passage of the clamping rod 16. The extensions of the ears in which are formed support portions 12B and 14B also have the wings, respectively 12C and 14C, which cooperate with the rear face of the front portions, respectively 12A and 14A to form spacers between the front portions and the clamping portions.
The collar shown in Figures 1 and 2 comprises a spacer 22 which is disposed between the front portions 12A and 14A of the ears and serves to bridge the space 20 above. The spacer 22 has a sole 24 which extends substantially on the cylindrical contour between the ends 10A and 10B of the belt and a core 26 which is raised relative to the sole and therefore extends between the lugs 12 and 14. Thus, seen end, that is to say in the direction of the axis A, or in a section perpendicular to this axis, the spacer has an inverted T-shape, the core forming the leg of the T, while the sole forms the hat of the T. The inner face of the sole 24 may be slightly concave to adopt the shape of the aforementioned cylindrical outline. This concavity depends of course on the diameter of the belt and the length of the sole, measured according to the circumference of the internal contour of the belt.
Referring to Figures 3 to 6, it is seen that the spacer 22 is formed by plate 28 which is folded in different places along fold lines perpendicular to its length. The core 26 has a first leg 30 and a second leg 32 which are folded against each other and which are raised relative to the sole 24 so as to extend substantially radially when the spacer is in place in the collar as shown in Figures 1 and 2. Of course, this core is pierced to allow the passage of the clamping rod 16, and in this case we see two holes, respectively 30A and 32A, formed in the legs 30 and 32. The tabs are pressed against each other so that their inner surfaces, facing each other, are in contact.
In the embodiment shown, it is seen that the spacer has a first fold PI located at the junction between the first leg 30 and the sole 24, a second fold P2 located at the first end 24A of the sole, a third fold P3 located at the second end 24B of the sole, and a fourth fold P4 located at the junction between the second leg 32 and the sole.
The sole thus has an inner panel 25B, which is oriented towards the axis A and which forms a return from the folding P2 until folding P3. The sole thus has a first doubled portion in which an outer panel 25A extending between the folds PI and P2 doubles the inner panel 25B on the outer side of the sole, located opposite the axis A. The sole is present also a second doubled portion formed by a second outer portion 25C extending between the folds P3 and P4, the outer side relative to the inner panel 25B. In addition, the core 26 is doubled because the legs 30 and 32 extend against each other.
In FIG. 6, the plate 28 in which the spacer is made is shown flat, and the holes 30A and 32A of the tabs 30 and 32 are seen, as well as the lines L1, L2, L3 and L4 according to which respectively folds PI, P2, P3 and P4. The core 26 has at least one lateral outgrowth and / or at least one outgrowth in extension of the tab 30 or 32. In the present case, each of the tabs 30 and 32 has a lateral protrusion, respectively 30L and 32L, which protrudes from one side of the spacer, in the direction of the axis A. In this case, these protrusions are located on two opposite sides of the spacer. When the spacer is in place in the collar, these protrusions protrude from the sides of the spacer in the direction of the axis A, respectively in one direction and the other.
Similarly, each of the tabs 30 and 32 has an extension, respectively 30P and 32P which are each formed at one end of the wafer 28. When the spacer is in place in the collar, these extensions project substantially radially.
These excrescences and these extensions play the role of position deterrents. It can be seen in FIG. 5 that the distances DL between the free edges of the lateral protuberances 30L and 32L and the axis AE of the bore (30A, 32A) of the core 26 provided for the passage of the clamping rod (these distances being measured with respect to a diameter D of this bore perpendicular to the inner surface of the sole 24), are greater than the distance DS between the inner face of the sole 24 and the axis AE. Thus, if the spacer is incorrectly positioned on the rod 16, so that the sole is oriented substantially perpendicular to the axis A, one of the lateral protuberances 30L or 32L protrudes inwardly relative to the cylindrical contour formed by the belt 10 and thus prevents insertion into this belt of the object to be tightened. The operator is then immediately aware of the incorrect positioning and straightens the spacer. Similarly, the distances DP between the free edges of the extensions 30P and 32P and the axis AE (these distances being measured perpendicularly to a diameter D 'of the bore of the core parallel to the inner surface of the sole or parallel to a tangent at the bottom of this inner surface), are also greater than the distance DS of the inner surface of the sole with respect to the axis AE. Thus, if the spacer is positioned incorrectly, so that its sole 24 is disposed opposite the axis A, the extensions 30P and 32P protrude inside the inner contour of the belt, and oppose also to the insertion of the object to be tightened, which allows the operator to make the mistake and rectify it.
In the embodiment just described, the free ends 28A and 28B of the wafer are located at the ends of the tabs 30 and 32 opposite the soleplate 24.
With reference to FIGS. 7 to 9, other embodiments of the spacer are now described.
In Figure 7, the spacer 122 has a single tab 130 and a sole 124 with two lined portions. Indeed, this spacer has a first fold PI between the tab 130 and the sole 24, a second fold P2 located at the first end 124A of the sole, and a third fold P3 located at the second end 124B of the sole.
The inner panel 125B of the soleplate is thus doubled, between the tab 130 and the fold P2, by a first external panel 125A, and it is also doubled, between the fold P3 and the core 126 by a second external panel 125C, whose the free end is located near the leg 130. Thus, in this case, the soul is not doubled, but the sole is doubled. In this case, a first free end of the wafer is located at the end of the tab 130 opposite the sole, and the second free end of the wafer is located at the junction between the inner panel 125B and the core 130. , the sole could end at its end 124B, without presenting the internal pan 125C.
In Figure 8, the sole 224 and the core 226 are doubled. More specifically, the core 226 has a first leg 230, a first fold PI at the junction between the first leg and the sole 224, a second fold P2 at the first end 224A of the sole, a third fold P3 at the second end. 224B of the outsole opposite the end 224A, and a fourth fold P4 'at the top of the tab 230, that is to say at the junction of the first tab 230 with the second tab 232 which doubles the core. being brought back to the sole from this folding P4 '. Thus, the inner panel 225B of the sole is doubled by external panels, respectively the outer panel 225A between the folds PI and P2 and the outer panel 225C between the fold P3 and the core. In this embodiment, free ends of the wafer in which the spacer is formed are located towards the junction between the second lug 232 and the inner panel 225B.
In Figure 9, the spacer 322 also has a sole 324 and a core 326 which are doubled. This spacer has a first tab 330 forming a portion of the core 326, a first folding PI located at the junction between the tab 330 and the sole 324, a second folding P2 located at the first end 324A of the sole, a folding P4 'located at the top of the core 326, at the junction between the tabs 330 and 332, and another fold P4 located at the junction between the tab 332 and the sole 324. This other folding P4 plays the role of the fourth folding mentioned above . Thus, the inner panel 325B of the sole is doubled by a first outer panel 325A between the folds PI and P2, and a second outer panel 325C between the fold P4 and the second end 324B of the sole. In this case, the free ends of the wafer in which the spacer is bent are formed at this second end 324B.
Of course, in the embodiments of Figures 7 to 9, the core may have a bore for the passage of the clamping rod, and the or the lateral growths and / or the extension or extensions mentioned above. For example, a lateral protrusion 130L has been shown in FIG.
Referring to Figures 1 and 2, we see that the collar has a washer 50 retained on the clamping rod 16 on one side of the web 26 of the spacer. This is for example a washer made of elastomer or rubber, for example a ring, engaged to friction around the clamping rod 16. This washer is thus disposed between one of the ears, in this case the ear 14 and the soul of the spacer. It makes it possible to keep the spacer core at a distance from this ear to ensure proper centering of the spacer with respect to the space to be bridged.
The two holes 30A and 32A of the tabs 30 and 32 may be aligned when these tabs are folded against each other to form the core 26. However, as seen in Figure 5, we can choose very slightly to offset the bores 30A and 32A of the respective tabs 30 and 32 of the core, that is to say that these holes could, while having the same dimensions, not be exactly aligned. For example, the distance between the axes of the two holes may be of the order of a few tenths of a millimeter. For example, this difference may be of the order of 1 / 100th to 1 / 5th of the diameter of the bores 30A and 32A, preferably of the order of 1/20 to 1 / 10th of this diameter. In this case, if the holes have dimensions adapted to the diameter of the screw shank, this misalignment rubs the edges of the bores on the screw and thus retain it naturally in the desired position by friction, without preventing screwing, especially as the two legs 30 and 32 of the spacer can slightly slide against each other.
The sole of the spacer may be more or less wide depending on the distance between the ends 10A and 10B of the ears in the tight state of the collar. Furthermore, the inner face of the belt may be slightly raised in the region of these ends 10A and 10B relative to the cylindrical contour formed by the belt to accommodate the ends of the sole. In this case, we see in Figure 1 that the belt 10 is slightly wider than the sole 24, the width being measured parallel to the axis A, and the side edges of the ends 10A and 10B, located at the base ears 12 and 14 have portions in advance, respectively 12D and 14D between which is housed the sole of the spacer in the tight state of the collar. These advanced portions are for example of the type described in WO 2006/109001.

权利要求:
Claims (10)
[1" id="c-fr-0001]
1. Clamping collar comprising a belt (10) wound on itself in a substantially cylindrical contour and having two ends having ears (12, 14), raised with respect to said contour and able to be brought together to tighten the collar, the collar further comprising a spacer (22; 122; 222; 322) having a sole (24; 124; 224; 324) extending substantially along said contour between the ends (10A, 10B) of the belt (10) and a core (26; 126; 226; 326) comprising at least a first leg (30; 130; 230; 330) raised with respect to said sole and extending between the ears, characterized in that the spacer (22; 122; 222; 322) is formed by a folded plate (28) and has a first fold (PI) located at the junction between said first tab and the soleplate, and a second fold (P2) at a first end (24A; 124A; 224A; 324A) of the sole, the sole having a prem doubled portion (25A; 125A; 225A; 325A) between said first and second folds (PI, P2).
[2" id="c-fr-0002]
2. A collar according to claim 1, characterized in that the core further has a second tab (32; 232; 332) which extends against the first leg so that the core (26; 226; 326) is doubled.
[3" id="c-fr-0003]
3. A collar according to claim 2, characterized in that the spacer has a third fold (P3) located at the second end (24B; 124B; 224B) of the sole, the sole having a second doubled portion (25C; 125C; 225C; 325C) between this third fold (P3) and the web (26; 126; 226; 326).
[4" id="c-fr-0004]
4. Collar according to claim 2 or 3, characterized in that the spacer has a fourth fold (P4) located at the junction between the second tab (32; 232; 332) and the sole (24; 124; 224; 324; ), the sole having a second doubled portion (25C; 125C; 225C; 325C) between said fourth fold (P4) and the second end (24B; 124B; 224B; 324B) of the sole.
[5" id="c-fr-0005]
5. Collar according to any one of claims 1 to 4, characterized in that the core (26; 126; 226; 326) has at least one lateral protrusion (30L, 32L) and / or at least one protrusion (30L , 32L) extending from said at least one first tab (30; 130; 230; 330).
[6" id="c-fr-0006]
6. Collar according to any one of claims 1 to 5, characterized in that the lugs (12, 14) have bores (13) and in that the collar has a clamping rod (16) passing through these bores.
[7" id="c-fr-0007]
7. Collar according to claim 6, characterized in that the core has a bore (30A, 32A) also traversed by the clamping rod (16).
[8" id="c-fr-0008]
8. A collar according to claim 7, characterized in that it comprises at least one washer (50) retained on the clamping rod (16) of one side of the core (26; 126; 226; 326).
[9" id="c-fr-0009]
9. Collar according to claims 2 and 7, characterized in each of the two tabs (30, 32) of the core has a bore (30A, 32A), these bores being off-axis.
[10" id="c-fr-0010]
10. Collar according to any one of claims 1 to 9, characterized in that the belt (10) and the spacer (22) are metallic.

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同族专利:

公开号 | 公开日

MX2016012802A|2017-06-22|

RU2717193C2|2020-03-18|

CN106969222A|2017-07-21|

BR102016022625A2|2017-04-04|

KR20170039607A|2017-04-11|

FR3042016B1|2017-11-24|

US10323666B2|2019-06-18|

RU2016138764A|2018-04-02|

RU2016138764A3|2020-01-21|

EP3150896B1|2018-09-05|

CN106969222B|2020-06-16|

JP6920804B2|2021-08-18|

ES2700104T3|2019-02-14|

EP3150896A1|2017-04-05|

US20170097024A1|2017-04-06|

JP2017083008A|2017-05-18|

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MX2012000828A|2009-07-24|2012-05-08|Norma Us Holding Llc|Band clamp with embossed gasket for slotted pipe lap joints.|

CN202302416U|2011-09-30|2012-07-04|苏州捷英特管道技术有限公司|Low-pressure sealing pipe joint|

US9976678B2|2016-01-21|2018-05-22|Pridgeon & Clay, Inc.|Clamp|FR3061246B1|2016-12-27|2019-07-26|Thales|CERCLAGE DEVICE|

DE102018114087A1|2018-06-13|2019-12-19|Norma Germany Gmbh|profile clip|

GB2584267B|2018-10-02|2021-08-04|Taylor Kerr Couplings Ltd|Pipe clamp|

法律状态:
2016-10-21| PLFP| Fee payment|Year of fee payment: 2 |

2017-04-07| PLSC| Publication of the preliminary search report|Effective date: 20170407 |

2017-10-23| PLFP| Fee payment|Year of fee payment: 3 |

2018-10-23| PLFP| Fee payment|Year of fee payment: 4 |

2019-10-23| PLFP| Fee payment|Year of fee payment: 5 |

2021-07-09| ST| Notification of lapse|Effective date: 20210605 |

优先权:

申请号 | 申请日 | 专利标题

FR1559350A|FR3042016B1|2015-10-01|2015-10-01|TIGHTENING CLAMP WITH SPACER|FR1559350A| FR3042016B1|2015-10-01|2015-10-01|TIGHTENING CLAMP WITH SPACER|

ES16191031T| ES2700104T3|2015-10-01|2016-09-28|Clamping clamp with spacer|

EP16191031.0A| EP3150896B1|2015-10-01|2016-09-28|Clamping collar with spacer|

BR102016022625A| BR102016022625A2|2015-10-01|2016-09-29|tightening collar|

MX2016012802A| MX2016012802A|2015-10-01|2016-09-29|Clamping collar with spacer.|

US15/281,122| US10323666B2|2015-10-01|2016-09-30|Clamping collar having a spacer|

RU2016138764A| RU2717193C2|2015-10-01|2016-09-30|Clamping ring with spacer|

JP2016192391A| JP6920804B2|2015-10-01|2016-09-30|Clamp collar with spacer|

KR1020160127387A| KR20170039607A|2015-10-01|2016-10-04|A clamping collar having a spacer|

CN201610883012.2A| CN106969222B|2015-10-01|2016-10-10|Clamping collar with spacer|

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