• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Female fitting (1) and plug connector (20) comprising the female fitting (1) and a male fitting (10) engageable to said female fitting (1). The female fitting (1) comprises a first end (2) configured to be joined to a rigid or flexible tube and a second end (3) configured to be connected to the male fitting (10). Said second end (3) comprises resilient retaining means configured to retain the male fitting (10) inside the female fitting (1). The female fitting (1) also comprises a non-removable cover (5) disposed at the second end (3) covering the retaining means, preventing said retaining means from being manipulated from the outside. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2651907A1
    申请号:ES201631053
    申请日:2016-07-29
    公开日:2018-01-30
    发明作者:Aitor Alberdi Bascaran
    申请人:Cikautxo S Coop;
    IPC主号:
    专利说明:

    “Female connector of plug-in connector and plug-in connector”
    SECTOR OF THE TECHNIQUE
    The present invention relates to connectors for rigid and flexible tubes in which a male fitting is coupled to a female fitting.
    PREVIOUS STATE OF THE TECHNIQUE
    Plug-in connectors are known which comprise a female fitting and a male fitting, where each fitting is fixed at one end to a rigid or flexible tube, which interact with each other to quickly and efficiently connect both tubes.
    In this type of connectors, the free end of the female fitting usually comprises retention means that cooperate with the male fitting to retain it inside the female fitting. During the insertion of the male fitting the retention means are elastically deformed which return to their original position when the retention means meet a recess or slot arranged in the male fitting, so that the male fitting is retained by said elastic means .
    In this sense, EP1671058 A1 discloses a plug-in connector for rigid and flexible pipes consisting of a male and a female connector. The male fitting comprises a retention step that surrounds the outer perimeter and which comprises a ramp that rises from said outer perimeter and a retention surface then disposed behind said ramp. The female fitting comprises a U-shaped retention spring that cooperates with said retention step. When the male fitting advances in the direction of insertion, the ramp pushes the retaining spring, which is slid in the radial direction. When the retention spring meets the retention surface, the retention spring returns to its original state retaining the male fitting.


    EXHIBITION OF THE INVENTION
    The object of the invention is to provide a plug-in female connector and a plug-in connector, as defined in the claims.
    The plug-in connector of the invention comprises a female fitting according to the invention and a male fitting attachable to said female fitting. The female fitting of the invention comprises a first end configured to be attached to a rigid or flexible tube and a second end configured to be connected to the male fitting. Said second end comprises elastic retention means configured to retain the male fitting inside the female fitting.
    The female fitting also comprises a non-removable cover disposed at the second end covering the retention means, preventing said retention means from being manipulated from the outside, that is, preventing the male fitting from being extracted from the female fitting once that both fittings (male and female) have been coupled, since it is not possible to access the retention means to reverse the coupling process, avoiding undue manipulation.
    These and other advantages and features of the invention will become apparent in view of the figures and the detailed description of the invention.
    DESCRIPTION OF THE DRAWINGS
    Figure 1 shows a perspective view of the plug-in connector according to the invention, wherein the female fitting and the male fitting are uncoupled.
    Figure 2 shows a perspective view of the plug-in connector of Figure 1, where the male fitting has not yet been attached and the female fitting cover has not yet been placed.
    Figure 3 is an exploded perspective view of the female fitting of Figure 1.


    Figure 4 is a perspective view of the female fitting of Figure 3 before permanently fixing the cover to the female fitting.
    Figure 5 is an elevation view of the female fitting of Figure 3 but without the cover.
    Figure 6 is a perspective view of the retaining means of the female fitting of Figure 1.
    Figure 7 is a perspective view of the cover of the female fitting of Figure 1.
    Figure 8 is a side view of the female fitting of Figure 1.
    Figure 9 is a view of the female fitting of Figure 1 according to the cutting plane indicated in Figure 8.
    DETAILED EXHIBITION OF THE INVENTION
    Figure 1 shows the plug-in connector 20 according to the preferred embodiment of the invention. As shown in said figure, the connector 20 comprises a female fitting 1 and a male fitting 10 attachable to said female fitting 1. Both the female fitting 1 and the male fitting 10 are configured to be joined by a first end 2 and 11 to a rigid or flexible tube (not shown in the images), so that the plug-in connector 20 makes it possible to communicate both tubes fluidly quickly and effortlessly.
    Both fittings 1 and 10 comprise a second end 3 and 12 respectively, the second end 12 of the male fitting 10 being configured to be inserted into the second end 3 of the female fitting 1.
    The second end 3 of the female fitting 1 comprises elastic retention means 4 that are configured to retain the male fitting 10 inside the female fitting 1.
    The use of this type of plug-in connectors is very common in the automotive sector


    for example. In a non-limiting example, one of the pipes could be connected to the rocker cover of a vehicle's engine and the other tube to the engine's intake circuit, so that the direct discharge of the generated oil and fuel vapors is eliminated in combustion into the atmosphere reusing these gases in the combustion cycle.
    The female fitting 1 also comprises a non-removable cover 5 disposed at the second end 3 that covers the retention means 4, thus preventing the retention means 4 from being manipulated from the outside and therefore, that the male fitting 10 can be removed from the female fitting 1. Once both fittings (male 10 and female 3) have been coupled, it is not possible to access the retaining means 4 and therefore it is not possible to reverse the coupling process, thus avoiding any undue manipulation, thus strengthening the safety of the fluid connection. In this way, it is prevented, for example, to avoid reusing oil and fuel vapors with the intention of increasing the engine power, pouring them directly into the atmosphere.
    Once the retention means 4 have been arranged at the second end 3 of the female fitting 1 in a first stage, the cover 5 is placed on said second end 3 so that it covers the retention means 4, and finally said cover 5 is permanently attached to the female fitting 1 at least in a contact zone between the second end 3 and the cover 5, as will be detailed below. A perspective view of the plug-in connector 20 of the preferred embodiment of the invention is shown in Figure 2 before placing the cover 5 on the second end 3 of the female fitting 1. In Figure 4 instead, a perspective view is shown of the female fitting 1 according to the preferred embodiment wherein the cover 5 is arranged on the second end 3 of the female fitting 1, but before being permanently attached to the female fitting 1.
    As shown in Figure 6, the retention means 4 comprise an elastic rod, preferably U-shaped, comprising a central section 4b and two lateral retention arms 4a. In turn, the second end 3 of the fitting 1 comprises two lateral grooves 14 in which said retention arms 4a are at least partially housed, at least part of said retention arms 4a being inside the second end 3, such and as shown in figure 5, to retain the male fitting 10. The retaining arms 4a are radially displaced pushed by the second end 12 of the male fitting 10 during the insertion of said male fitting 10.


    The second end 12 of the male fitting 10 according to the preferred embodiment of the invention comprises a recess 13 'preceded by a ramp 13. During insertion of the male fitting 10 into the female fitting 1, the ramp 13 pushes the retaining means 4 causing that the arms 4a move outwards. When the retention means 4 meet the recess 13 ', the retention arms 4a return to their original position, said retention arms being housed in the recess 13' and thereby blocking the male fitting 10 in said position.
    As shown in Figure 6, the free end of each retaining arm 4a comprises a curved and angled end 4a 'which is disposed outside the second end 3. Said angled ends 4a', together with the central section 4b , allow blocking the retention means 4, in the direction of insertion of said retention means 4.
    In the preferred embodiment of the invention, the two angled ends 4a 'are arranged in opposite directions, as shown in Figure 6, although they could also be arranged in the same direction.
    The female fitting 1 comprises a respective enclosure 5a for each end 4a 'of the retaining arms 4a where the corresponding end 4a' is housed, said ends 4a 'being able to move inside the respective enclosure 5a during the insertion of the male fitting 10 inside the female fitting 1.
    The respective enclosures 5a are formed when the cover 5 is arranged on the second end 3 of the female fitting 1, each enclosure 5 being delimited by the second end 3 and the cover 5.
    As shown in Figure 7, the cover 5 of the preferred embodiment of the invention comprises a guide channel 9 which allows guiding and centering the cover 5 with respect to the female fitting 1. For this, the second end 3 of the female fitting 1 comprises at least one protuberance 8 cooperating with said guide channel 9. The protuberance 8 is arranged, according to the preferred embodiment of the invention, between the two lateral grooves 14, and when the retaining means 4 are mounted on the second end 3 of the female fitting 1, also between the ends 4a 'of the retaining arms 4a. In the realization


    Preferably of the invention, said protuberance 8 protrudes radially and extends axially over the second end 3 of the female fitting 1.
    The protuberance 8 is preferably arranged in the lower part of the end 3 of the female fitting 1, that is, in the lower part according to the direction of insertion of the retaining means 4. The protuberance 8 of the second end 3 is housed in said channel of Guiding 9. It is also possible to include more than one guiding system that includes another protrusion that is housed in another guiding channel, for example at the top and / or on the sides of the cover 5. This embodiment includes a second protuberance 3b and a respective 5d guidance channel to which reference will be made later.
    The cover 5, according to the preferred embodiment of the invention, comprises a front face 5e with a coaxial hole with the second end 3 and a perimeter wall 5d attached to said front face 5e which extends axially fitting into an outer surface 3a of the second end 3, so that the perimeter wall 5d surrounds the second end 3 perimeter.
    The guide channel 9, shown in Figure 7, comprises a recess disposed between two side walls 9a that extend axially along the perimeter wall 5d.
    Each enclosure 5a is delimited, according to the preferred embodiment of the invention, by a cavity formed by the corresponding wall 9a, by a portion of the perimeter wall 5b of the cover 5, by a portion of the front face 5c of said cover 5 and by a portion of the outer surface 3a of the second end 3.
    As can be seen in figure 7, each enclosure 5a is arranged at the bottom, to one side of the guide channel 9. When the cover 5 is placed on the second end 3 of the female fitting 1, each end 4a 'angled It is housed inside the corresponding room 5a.
    As already mentioned, when the male fitting 10 is inserted into the female fitting 1, the second end 12 of the male fitting 10, in this embodiment the ramp 13 of the second end 12, pushes the retaining means 4 causing the arms 4a, and their respective angled ends 4a ', move outward, that is, each end 4a'


    layered is moved inside the corresponding enclosure 5a so that each enclosure 5a must be sized accordingly, that is, each enclosure 5a must allow the necessary displacement of the corresponding layered end 4a 'to allow the insertion of the male fitting 10.
    Each retention arm 4a of the retention means 4 of the preferred embodiment of the invention comprises two preferably straight sections that join together forming an elbow 4a '', preferably at an intermediate point, so that each arm 4a can be curved or arched. , as seen in figure 6.
    The distance d between the angled ends 4a 'is less than the maximum separation distance d' of the retention arms 4a, so that the travel of the corresponding ends 4a 'is minimized during insertion of the male fitting 10 inside the female fitting 1, thus avoiding oversizing the respective enclosures 5a. In the preferred embodiment of the invention, the maximum separation distance d 'between the retention arms 4a corresponds to the separation of said elbows 4a' ', therefore, as can be seen in Figure 6, said elbows 4a '' protrude out.
    In the preferred embodiment of the invention, the female fitting 1 comprises another protuberance 3b that protrudes radially over a section of the second end 3 and extends axially along said section. Said protuberance 3b comprises a housing 3b ’housing the central section 4b of the metal rod, said central section 4b being supported on said housing 3b’. The cover 5 in turn comprises an auxiliary guide channel 5d that is arranged on the protuberance 3b, cooperating with the guide channel 9 to guide and center the cover 5 with respect to the female fitting 1.
    The second end 3 of the female connector 1 comprises a stop surface 16, as can be seen, for example, in Figures 2 and 5, which radially protrudes and perimeter surrounds a section of the contour of the second end 3. The cover 5 of the invention , preferably the perimeter wall 5d, is supported on said abutment surface 16 when disposed on said second end 3, as can be seen in Figure 4.
    The cover 5 is permanently attached to the female fitting 1, that is to say that it cannot be removed, the perimeter wall 5d of the cover 5 adhering to the second end


    3 in at least part of the contact perimeter between the perimeter wall 5d and the abutment surface 16.
    In an embodiment not shown in the drawings, the female fitting 1 and the cover 5 are adhered along the entire perimeter of contact between the perimeter wall 5d and the abutment surface 16. However, in the preferred embodiment of the invention , the female fitting 1 and the cover 5 are adhered only in a part of the contact perimeter between the perimeter wall 5d and the abutment surface 16, as detailed below, whereby an economic saving is achieved.
    The cover 5 comprises at least one fin 7 protruding radially from the perimeter wall 5d and the abutment surface 16 comprises a respective radial extension 6 which is arranged close to the fin 7, said fin 7 and said radial extension 6 being the preferred areas of Union. In the preferred embodiment of the invention, the cover 5 comprises two fins 7 each arranged on one side, as shown in Figure 7, and the abutment surface 16 comprises two respective radial extensions 6, as shown in Figure 5
    To permanently connect the second end 3 and the cover 5, either in the entire contact perimeter or in the preferred areas of connection between the perimeter wall 5d of the cover 5 and the abutment surface 16, several methods can be used, such as the use of adhesives, welding, for example ultrasonic welding, or hot plate. However, in the preferred embodiment, the second end 3 and the cover 5 are joined by overmolding by adding input material 17, preferably plastic. After placing the cover 5 on the second end 3 at a previous stage, the contribution material 17 is overmolded on each pair of fin 7 and radial protuberance 6.
    To facilitate the adhesion of the contribution material 17 and ensure the connection between the second end 3 and the cover 5, each fin 7 and the respective radial protuberance 6 comprise perforations 6a and 7a that allow the contribution material 17 to penetrate said perforations 6a and 7a, thus favoring a union not only chemical but also mechanical.
    In the exploded view of Figure 3, the contribution material 17 has been represented as a


    solid and independent element to favor the understanding of the drawings. However, as the person skilled in the art knows, the input material 17 is not an element that can be disassembled as such.
    As already detailed, with the plug-in connector 20 of the invention it is not possible to reverse the process once the male fitting 10 has been coupled to the female fitting 1. That is, it is not possible to remove the male fitting 10 from the female fitting. 1 once the retention means 4 have locked the male fitting 10 and the cover 5 has been fixed.
    If still and a whole user, making a bad use, intended to decouple both male 10 and female 1 fittings and force the plug connector 20, it would break, preferably by the first end 2 of the female fitting 1, forcing the user to restore the connection replacing the plug connector 20.
    To direct the breakage of the plug-in connector 20 as described in the previous paragraph, the first end 2 of the female fitting 1 comprises a weakened zone 2a that ensures the breakage of the female fitting 1 in case of improper handling. In the preferred embodiment of the invention, said weakened zone 2a is disposed in the section of the first end 2 closest to the second end 3.
    The weakened zone 2a is a reduction in the section of a section of the first end 2 of the female fitting 1, as can be seen in Figures 8 and 9.
    In the preferred embodiment of the invention, the first end 2 of the female fitting 1 is in the form of a bellows, that is to say it comprises a plurality of ramps 2b projecting and radially surrounding the outer surface of the first end 2. The ramps 2b are oriented, is say they grow towards the second end 3. These ramps 2b facilitate the fixation of the tube, not shown in the figures, which is arranged at said end 2.
    In a non-limiting example, one of said ramps 2b, preferably the one closest to the second end 3, comprises an inter-cut ramp 2c that prevents the rotation of the tube fixed at said end 2.
    In the preferred embodiment of the invention, the weakened zone 2a is disposed between said


    ramps 2b, preferably after ramp 2c between-cut.
    As with the plug-in connectors of the state of the art, the female connector 1 comprises a sealing gasket 18, as seen in Figures 3 and 9,
    5 arranged inside the female fitting 1, preferably inside the second end 3, which ensures a tight seal thus preventing a leakage of the fluid that can circulate inside the plug-in connector 20.
    To retain the seal 18 in its position the female fitting 1 also 10 comprises an inner ring or washer 19 disposed adjacent to the seal
    19. Said inner washer 19 comprises an internal ramp 19a to favor the insertion of the male fitting 10, as shown in Figure 9.
    The female fitting 1 comprises a central body 1 ’that joins the first end 2 and the second
    15 end 3, allowing a linear union between both ends 2 and 3 (as shown in the figures), or an angled or angular joint where an angle between both ends 2 and 3 is allowed.

    权利要求:
    Claims (14)
    [1]
    one. Female connector of a plug-in connector, comprising a first end (2) configured to be connected to a tube and a second end (3) configured to be connected to a male connector (10), the second end (3) comprising the fitting female (1) elastic retention means (4) configured to retain the male fitting (10) inside the female fitting (1), characterized in that it also comprises a non-removable cover (5) disposed at the second end (3) covering the retention means (4) preventing said retention means (4) from being manipulated from the outside.
    [2]
    2. Female fitting according to claim 1, wherein the retention means (4) comprise an elastic rod comprising a central section (4b) and two lateral retention arms (4a), and the second end (3) of the fitting (1) it comprises two lateral grooves (14) in which said retention arms (4a) are at least partially housed, at least part of said retention arms (4a) being inside the second end (3) to retain the male fitting ( 10), and the ends (4a ') of the retaining arms (4a) being outside said second end (3), the female fitting (1) comprising a respective enclosure (5a) for each end (4a') of the retention arms (4a), said enclosure (5a) being delimited by the second end (3) and the cover (5), and the ends (4a ') of the retention arms (4a) being able to move inside of the respective enclosure (5a) during the insertion of the male fitting (10) inside the female fitting (1).
    [3]
    3. Female fitting according to claim 2, wherein the second end (3) comprises a protuberance (8) disposed between the ends (4a ') of the retention arms (4a), and the cover (5) comprises a guiding channel ( 9), said protuberance (8) being housed in said guide channel (9).
    [4]
    Four. Female fitting according to claim 3, wherein the cover (5) comprises a front face (5e) with a coaxial hole with the second end (3) and a perimeter wall (5d) attached to said face (5e) that fits into a outer surface (3a) of said second end (3), the guide channel (9) of the cover (5) being delimited by two walls (9a), and each enclosure (5a) being delimited by a cavity formed by the wall (9a)

    correspondingly, by a portion of the perimeter wall (5b) of the cover (5), by a portion of the front face (5c) of said cover (5), and by a portion of the outer surface (3a) of the second end (3).
    [5]
    5. Female fitting according to claim 4, wherein the distance (d) between the ends (4a ') of the retention means (4) is less than the maximum separation distance (d') of the retention arms (4a), so that the displacement of the ends (4a ') is minimized during the insertion of the male fitting (10) inside the female fitting (1).
    [6]
    6. Female fitting according to claim 5, wherein each retention arm (4a) comprises an elbow (4a '') at an intermediate point, the maximum separation distance (d ') between the retention arms (4a) being the separation between both elbows (4th).
    [7]
    7. Female fitting according to any of claims 4 to 6, comprising a protuberance (3b) with a housing (3b ') for the central section (4b) of the metal rod, the cover (5) comprising a guide channel (5d) respectively, said protuberance (3b) being housed in said guide channel (5d).
    [8]
    8. Female fitting according to any of claims 4 to 7, wherein the second end (3) comprises a stop surface (16), the perimeter wall (5d) of the cover (5) resting on said stop surface (16) and the perimeter wall (5d) being adhered to the second end (3) at least part of the perimeter of contact between the perimeter wall (5d) and the abutment surface (16).
    [9]
    9. Female fitting according to claim 8, wherein the cover (5) comprises at least one fin (7) projecting radially from the perimeter wall (5d) and which is arranged close to a respective radial extension (6) of the abutment surface (16) of the second end (3), the fin (7) and the radial extension (6) being joined by overmolding by adding input material (17), preferably plastic.
    [10]
    10. Female fitting according to claim 9, wherein the radial extension (6) and the fin (7) comprise respective perforations (6a, 7a) that allow the input material

    (17) penetrate said perforations (6a, 7a).
    [11]
    11. Female fitting according to claim 8 or 9, comprising two lateral fins (7) and
    two respective radial extensions (6).5
    [12]
    12. Female fitting according to any of the preceding claims, wherein the first end (2) comprises a weakened area (2a) that allows the female fitting to break
    (1) in case of improper handling of the female fitting (1).
    13. Female fitting according to claim 12, wherein the weakened area (2a) is a reduction of the section at least in a section of the first end (2).
    [14]
    14. Female fitting according to claim 12 or 13, wherein said weakened area (2a) is
    it has in the section of the first end (2) closest to the second end (3). fifteen
    [15]
    15. Plug-in connector characterized in that it comprises a female fitting (1) according to any of the preceding claims and a male fitting (10) attachable to said female fitting (1).

     DRAWINGS 


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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    ES2110652T3|1993-06-08|1998-02-16|Kuehner Gmbh & Cie|COUPLING FOR THE CONNECTION OF REFRIGERANT PIPES.|
    US20050136741A1|2003-12-05|2005-06-23|Piolax Inc.|Pipe joint|
    DE102008046143A1|2008-09-05|2010-03-11|Bayerische Motoren Werke Aktiengesellschaft|Quick-coupler arrangement for use in cooling circuit of internal-combustion engine of motor vehicle to connect e.g. cooling water hose, has separation force producing device producing force that acts between connecting piece and coupler|
    EP2902689A1|2012-09-26|2015-08-05|Nifco Inc.|Connector|
    DE202014000313U1|2014-01-10|2015-04-20|Mayr + Hönes GmbH Metallumformung|Coolant water connection device for motor vehicles|
    US20160208752A1|2015-01-15|2016-07-21|GM Global Technology Operations LLC|Fluid spray shield and secondary retention clip for a quick connector joint|
    US3922011A|1973-12-11|1975-11-25|Tom Walters|Hose coupling|
    DE9411113U1|1994-07-08|1994-09-08|Voss Armaturen|Connectors for hose and / or pipes|
    JP3113170B2|1994-12-28|2000-11-27|株式会社東郷製作所|connector|
    DE10161372C1|2001-12-14|2003-06-18|Seppelfricke Armaturen Gmbh &|Connectors for plastic pipes|
    DE10346712B4|2003-10-08|2006-02-02|Henn Gmbh & Co. Kg|Plug connection for pipe and hose lines with detent spring guide|
    JP5836159B2|2012-02-29|2015-12-24|大阪瓦斯株式会社|Misconnection prevention device and method of using the same|
    JP6083869B2|2013-04-25|2017-02-22|株式会社ニフコ|connector|
    JP6168559B2|2014-08-07|2017-07-26|株式会社ニフコ|Locking mechanism of tubular body|
    法律状态:
    2018-11-16| FG2A| Definitive protection|Ref document number: 2651907 Country of ref document: ES Kind code of ref document: B1 Effective date: 20181116 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201631053A|ES2651907B1|2016-07-29|2016-07-29|Female connector with plug-in connector and plug-in connector|ES201631053A| ES2651907B1|2016-07-29|2016-07-29|Female connector with plug-in connector and plug-in connector|
    US15/656,817| US10767797B2|2016-07-29|2017-07-21|Female connector of a plug-in connector and plug-in connector|
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