QUICK TUBULAR CONNECTION WITH SECURED RING FOR SECURE FLUID CONNECTION

专利摘要:
A rapid tubular connection (1) comprises a first tubular element (2) with a hollow connector body (4) defining an axial orifice (5) intended to receive a second tubular element (3) provided with a circular rib (8). a latch (6) axially locked in the first tubular element (2) and radially operable to release the second tubular element (3) from the first tubular element (2) and a security system (7) which prevents removal of the second element tubular (3). The security system (7) is a flexible and breakable ring (7) which has a perimeter portion inside the first tubular element (2) between the inlet of the orifice (5) of the body (4) and the latch (6) for coaxially locking the second tubular element (3) in the first tubular element (2) despite actuation of the latch (6), and the ring (7) has at least one perimeter portion in form crenel (16) breakable projecting outside the body (4).
公开号:FR3044382A1
申请号:FR1561538
申请日:2015-11-30
公开日:2017-06-02
发明作者:Clement Chatelain；Quentin Rabut
申请人:A Raymond SARL；
IPC主号:

专利说明:

TECHNICAL FIELD The invention relates to a rapid tubular connection comprising a first tubular element with a hollow body defining an axial orifice for receiving a second tubular element provided with a circular rib, a latch locked axially in said first tubular element and radially operable for releasing the second tubular member from the first tubular member and a security system that opposes releasing the second tubular member.
Prior art
In the automotive industry, quick pipe fittings are used to connect two fluid transport lines and in particular for the connection of the fuel injector, filter, radiator or other suitable equipment and / or in any other similar technical field.
Tubular connectors generally comprise a first tubular element with a hollow body provided with a housing for snap-fitting a second tubular element with a latch arranged in the housing for axially locking the second element in the first element, the latch being operable to release the second element if it is desired to disassemble the fitting in a desired manner.
Such tubular connectors are in particular known from US 6,086,119 and WO2014 / 170590.
Some manufacturers now seek to secure the connection between the two tubular elements after it is established in order to prevent unwanted disconnection. For this, it is advantageous to add a security system to prevent actuation of the lock and thus guarantee the connection. US Pat. No. 4,573,716, US Pat. No. 4,923,220 and US Pat. No. 2,490,970 disclose a safety system for a tubular connection corresponding to a cover or a sleeve, which are positioned on the tubular connection, in order to avoid accidental release of the second tubular element of the connection. However, these security systems being removable, they do not allow to provide a releasable connection in an effective position of pipe connection once it is established.
Presentation of the invention
The object of the invention is to overcome these disadvantages by providing a quick and easy connection for use for a secure fluid connection while remaining removable when necessary.
More particularly, the subject of the invention is a rapid tubular connection, comprising a first tubular element with a hollow connector body defining an axial orifice intended to receive a second tubular element provided with a circular rib, a bolt locked axially in the first tubular element and radially operable to release the second tubular member of the first tubular member and a safety system that opposes the release of the second tubular member characterized in that the security system is a flexible and breakable ring which has a portion of perimeter inside the first tubular element between the inlet of the body orifice and the latch to ensure the coaxial locking of the second element in the first element despite the actuation of the latch, the ring having at least one perimeter portion in the form of a breakable niche that projects to the outside of the body.
The fixing device according to the invention may also have the following features: the ring may comprise on the perimeter portion inside the first tubular element at least one radially inclined rib for, during the axial engagement of the second element tubular in the axial orifice, deviate radially under the effect of the axial support of the circular rib on the inclined portion of the rib and allow the passage of the circular rib and then tighten behind the circular rib; - The inclined rib may further comprise a harpoon notch which comes into contact with the circular rib of the second tubular member and an internal groove of the hollow body for axially locking the second tubular member in the first tubular member; the ring may comprise two diametrically opposed inclined ribs; - The ring may comprise at least one retaining notch which cooperates with an internal groove of the body for axially locking the ring in the body of the first tubular member; the ring may comprise two opposite slots.
With this arrangement according to the invention, a quick and secure connection is obtained between two fluid transport pipes by snapping a second element into a first tubular element. The addition of a ring according to the invention as a safety system makes it possible to avoid uncontrolled dismantling of the coupling to guarantee the connection between the ducts after it has been established by the presence of the harpoon catches on the pipe. ring which opposes the extraction of the second tubular element. Even when operating the latch, the second element remains stuck in the first element.
The ring having a breakable shape that is protruding and accessible from the body of the first tubular element. Once this form is broken, the ring is out of the first tubular element to disassemble the fitting. Indeed, the ring no longer retaining the second element in the body of the first element, the quick coupling can be disassembled by actuating the lock.
With the coupling according to the invention, the car manufacturers have at their disposal a quick coupling and easy to use, secure during assembly, while remaining removable if necessary.
Brief presentation of the drawings
The present invention will be better understood and other advantages will become apparent on reading the description which follows and the appended drawings in which: FIG. 1 is a perspective view of the pre-assembled fast tubular connection according to the invention; Figure 2 is a perspective view of the quick tubular connector according to the invention with the second tubular member connected and retained in the first tubular member; Figure 3 is an exploded perspective view of the tubular quick coupling according to the invention with the unassembled safety ring in the connection; Figure 4A is a perspective view of the ring of the tubular connector according to the invention; Figure 4B is an inverse perspective view of Figure 4A of the ring of the tubular connector according to the invention; FIGS. 5A to 5C are longitudinal sectional views of the tubular connection during assembly of the safety ring according to the invention; Figures 6A and 6B are longitudinal sectional views illustrating the mounting of a second tubular member in a tubular connector according to the invention.
Description of an embodiment
FIG. 1 illustrates a tubular connection 1 fast according to the invention in assembled position and intended to connect tubular elements of fluidic conduit as illustrated in FIG. 2 in which a first tubular element 2 is connected to a second tubular element 3 according to the axis AA.
The first tubular element 2 comprises an axial male end integral with a hollow body 4 provided with an axial orifice 5 provided in the axial alignment of the male end of the first tubular element 2. The hollow body 4 defines a housing intended for In a known manner, a lock 6 is provided. According to the invention, a safety system, here in the form of a ring 7 whose two faces are visible in FIGS. 4A and 4B, is added to the hollow body 4 of the tubular connector 1 so that to ensure the locking of the second tubular element 3 in the first tubular element 2 despite the actuation of the lock 6.
The second tubular element 3 has an axial end piece provided with a circular rib 8. The diameter of the tip of the second tubular element 3 is smaller than the diameters of the axial orifice and the male end of the first tubular element 2 in which it can be received. The second tubular element 3 is engaged axially through the orifice 5 in the first tubular element 2.
The housing of the hollow body 4 of the first tubular element 2 is provided with lateral openings 10 allowing lateral insertion of the lock 6 (not shown) while the ring 7 is inserted into the first tubular element 2 by axial translation through the orifice 5 as illustrated by the arrow F in FIG.
In known manner, the latch 6 is in the form of a diamond traversed by the axial orifice 5 with bearing bars 9 housed in the lateral openings 10 of the body 4 of the first tubular element 2, while the sides of this form diamond are flexible and provided in the middle of an inclined section forming a connecting notch 11, protruding inwardly in the axial orifice 5 and outwardly to lock the latch 6 in the hollow body 4.
The connection notches 11 are arranged so that, during the axial engagement of the second tubular element 3 in the axial orifice 5, the axial support of the circular rib 8 on the connection notches 11 causes the radial spacing of the notches 11, thus allowing the passage of the circular rib 8 between the connecting notches 11 and the introduction of the second tubular element 3 in the first tubular element 2. After crossing the circular rib 8, the connection notches 11 are approaching radially between them, and are tightened on the male end of the second tubular element 3, behind the circular rib 8. The connection notches 11 then cooperate with the circular rib 8 to axially lock the second tubular element 3 with respect to the first tubular element 2, via the lock 6.
In known manner, by pressing on the bars 9 the latch 6 is deformed so that the connecting notches 11 move apart, releasing the circular rib 8 of the second tubular element 3, the latter then being removed axially from the body 4 of the first tubular element 2.
According to the invention, the ring 7, visible in Figures 4A and 4B, has a perimeter divisible into two portions, the two portions can be reproduced symmetrically. A first perimeter portion of the ring 7 is intended to be arranged in the body 4 of the first tubular element 2 and a second perimeter portion is intended to remain prominent outside the body 4.
The ring perimeter portion 7 intended to be inserted inside the first tubular element 2 is flexible and comprises here a rib forming a retaining notch 12 extending radially outwardly of the ring 7. Here the ring 7 has two retaining notches 12 diametrically opposed. The retaining notches 12 cooperate with a groove 13 located on the inner face of the hollow body 4, corresponding to one of the edges of the lateral openings 10 present in the body 4, for axially locking the ring 7 in the hollow body 4.
The ring perimeter portion 7 intended to be inserted inside the first tubular element 2 comprises an inclined section extending radially towards the inside of the ring, forming a rib 14. The end of the rib 14 is presented in the form of a harpoon 15 facing outwardly of the ring 7. Here the ring 7 has two ribs 14 diametrically opposite.
FIGS. 5A to 5C illustrate the axial insertion of the ring 7 into the hollow body 4 according to the arrow F.
The ribs 14 of the ring 7 are arranged so that, during the axial engagement of the ring 7 in the axial orifice 5 along the arrow F of FIGS. 5A and 5B, the support of the ribs 14 inclined on the walls of the 5 causes the radial tightening of the ring 7, allowing the passage of the ring 7 through the orifice 5. After crossing the ribs 14, the ring 7 radially deviates so that the retaining notches 12 are housed in the groove 13 of the body 4 as shown in Figure 5C.
The ribs 14 of the ring 7 are also arranged so that, during the axial engagement of the second tubular element 3 in the axial orifice 5 illustrated in FIGS. 6A and 6B, the axial support of the circular rib 8 on the ribs 14 of the ring 7 causes radial spacing of the ribs 14 of the ring 7, thus allowing the passage of the circular rib 8 between the ribs 14 of the ring 7 and the introduction of the second tubular element 3 into the first tubular element 2 After crossing the circular rib 8, the ribs 14 of the ring 7 come closer radially to each other, and tighten on the end of the second tubular element 3, behind the circular rib 8. The harpoon teeth 15 of the ribs 14 of the ring 7 then cooperate with the circular rib 8 to axially block the second tubular element 3 with respect to the first tubular element 2, via the lock 6.
The ribs 14 of the ring 7 and the connection catches 11 of the latch can be arranged to move away and approach simultaneously with respect to the circular rib 8 of the second tubular element 3.
The ring perimeter portion 7 intended to remain outside the body 4 of the first tubular element 2 is in the form of a crenel 16. The crenel 16 is arranged so that it projects to the outside of the body 4 of the first tubular element 2 when the ring 7 is in the pre-assembly position in the body 4 of the first tubular element 2 (FIGS. 1 and 5C) and so as to remain accessible by a tool when the second tubular element 3 is connected to the connection 1. A particular feature of this slot 16 is that it is breakable and can be broken by the tool.
According to the invention, the ring perimeter portion 7 intended to remain outside the body 4 of the first tubular element 2 may also be in another form, for example such a semi-circle, an omega or triangle.
In the embodiment described above and according to the invention, when the first 2 and second 3 tubular elements are connected, the connection notches 11 of the lock 6 and the ribs 14 of the ring oppose the withdrawal of the second element. tubular 3. By pressing the lugs 9 of the latch 4, the connection notches 11 of the latch 4 release the second tubular element 3 but it remains in place in the first tubular element 2 because the ribs 14 of the ring 7 always oppose the removal of the second tubular element 3 thus ensuring the security of the first connection. Nevertheless, according to the invention it is possible to extract the second tubular element 3 from the first tubular element 1. To achieve the withdrawal of the second tubular element 3 from the first tubular element 2, it is necessary to cut the ring 7 with the aid of the action tool on the breakable slots 16 accessible outside the body 4 of the coupling 1. Once the ring 7 broken, the ribs 14 of the ring 7 no longer have axial retention in the body 4 and by action on the bars 9 of the lock 6 the second tubular element 3 can be disconnected from the first tubular element 2.
According to the invention, a new ring 7 can be inserted into the body 4 of the fitting so that the tubular connector 1 can be used again with a high level of security.
To guarantee a fluidic seal between the first 2 and second 3 tubular elements when they are connected, seals 17 are arranged in the hollow body 4 of the first tubular element 2.
Another advantage of the tubular connection 1 according to the invention is to improve the mechanical strength of the second tubular element 3 in the tubular connector 1 without degrading the connection force. Indeed, the circular rib 8 of the second tubular element 3 is held axially in four points instead of two in conventional connections. In addition, the forms of harpoons present on the ring 7 allow a minimum of effort to deform them during the introduction of the second tubular element 3 into the first tubular element 1.
The various elements of the tubular connection 1 according to the invention, namely the first tubular element 2, the lock 6 and the ring 7, can be made completely by molding plastics material. Such a tubular connector 1 can be manufactured at low cost.
These elements could also be made by adding material in a 3D printer if for example it was a small series production.
The tubular connectors according to the invention can be used to connect two fluid transport lines in the field of the automotive industry, and could quite well be used for sanitary applications to avoid the unintentional or tool-free dismantling of the fittings.

权利要求:
Claims (6)
[1" id="c-fr-0001]
1. A tubular connection (1) comprising a first tubular element (2) with a hollow connector body (4) defining an axial orifice (5) for receiving a second tubular element (3) provided with a rib (8). ) circular, a latch (6) axially locked in said first tubular member (2) and radially operable to release said second tubular member (3) from said first tubular member (2) and a security system (7) which prevents removal of said second tubular element (3) characterized in that said security system (7) is a flexible and breakable ring (7) which has a perimeter portion inside said first tubular element (2) between the inlet of said orifice ( 5) of said body (4) and said latch (6) for coaxially locking said second tubular element (3) in said first tubular element (2) despite actuation of said latch (6), said ring (7) having at least one minus a portion of perimeter under f crenellated elm (16) which splits outwardly of said body (4).
[2" id="c-fr-0002]
2. Fitting (1) according to claim 1, characterized in that said ring (7) comprises on said perimeter portion inside said first tubular element (2) at least one rib (14) inclined radially for, at the time of the axial engagement of said second tubular element (3) in said axial orifice (5), to deviate radially under the effect of the axial support of said circular rib (8) on said inclined rib (14) and to allow the passage of said circular rib (8) and then tightening behind said circular rib (8).
[3" id="c-fr-0003]
3. Fitting (1) according to claim 2, characterized in that said inclined rib (14) further comprises a harpoon notch (15) which comes into contact with said circular rib (8) of said second tubular element (3) and a internal groove (13) of said hollow body (4) for axially locking said second tubular element (3) in said first tubular element (1).
[4" id="c-fr-0004]
4. Fitting (1) according to one of the preceding claims, characterized in that said ring (7) comprises two ribs (14) inclined diametrically opposed.
[5" id="c-fr-0005]
5. Fitting (1) according to one of the preceding claims, characterized in that said ring (7) comprises at least one retaining catch (12) which cooperates with an internal groove (13) of said body (4) hollow to block axially said ring (7) in said body (4) of said first tubular element (2).
[6" id="c-fr-0006]
6. Fitting (1) according to one of the preceding claims, characterized in that said ring (7) comprises two slots (16) opposite.

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法律状态:
2016-11-18| PLFP| Fee payment|Year of fee payment: 2 |

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2017-06-02| PLSC| Publication of the preliminary search report|Effective date: 20170602 |

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2017-11-21| PLFP| Fee payment|Year of fee payment: 3 |

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2019-11-20| PLFP| Fee payment|Year of fee payment: 5 |

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2020-11-20| PLFP| Fee payment|Year of fee payment: 6 |

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2021-11-22| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1561538A|FR3044382B1|2015-11-30|2015-11-30|QUICK TUBULAR CONNECTION WITH SECURED RING FOR SECURE FLUID CONNECTION|FR1561538A| FR3044382B1|2015-11-30|2015-11-30|QUICK TUBULAR CONNECTION WITH SECURED RING FOR SECURE FLUID CONNECTION|

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CN201680069789.3A| CN108368958B|2015-11-30|2016-11-07|Tubular quick coupling for reliable fluid connection comprising a divisible ring|

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BR112018010870-7A| BR112018010870A2|2015-11-30|2016-11-07|tubular quick coupling with a breakable ring for safe fluid connection|

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PCT/FR2016/052874| WO2017093626A1|2015-11-30|2016-11-07|Tubular quick coupling comprising divisible ring for secure fluid connection|

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EP16804830.4A| EP3384196B1|2015-11-30|2016-11-07|Tubular quick coupling comprising divisible ring for secure fluid connection|

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PL16804830T| PL3384196T3|2015-11-30|2016-11-07|Tubular quick coupling comprising divisible ring for secure fluid connection|

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ES16804830T| ES2751070T3|2015-11-30|2016-11-07|Tubular quick coupling with divisible ring for secure fluid connection|

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KR1020187014973A| KR20180072814A|2015-11-30|2016-11-07|A tubular quick coupling comprising a detachable ring for securing fluid connections|

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JP2018523744A| JP2018535370A|2015-11-30|2016-11-07|Tubular quick coupler with splittable ring for secure fluid connection|

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US15/779,047| US20180347739A1|2015-11-30|2016-11-07|Tubular quick coupling comprising divisible ring for secure fluid connection|

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CA3004997A| CA3004997C|2015-11-30|2016-11-07|Tubular quick coupling comprising divisible ring for secure fluid connection|