• 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:
    Fast coupling device (1) of cartridge type, comprising a tubular body (2) delimiting a channel (3), a retaining washer (9) of the tube in the device (1), a tubular disconnecting pusher (7) which is slidably mounted in the channel (3) and anchoring means (8) of the connecting device (1) in the housing (102). The body (2) has an end provided with a retractable ring (5) which projects axially from said end (2.1) to internally carry a sealing member (10) of the connecting device (1) and for be capable of being returned to the body (2) to release the sealing member (10) in the well (102). The retaining washer (9) is disposed in the retractable ring (5) between the body (2) and the sealing member (10).
    公开号:FR3014167A1
    申请号:FR1361907
    申请日:2013-11-29
    公开日:2015-06-05
    发明作者:Quere Philippe Le
    申请人:Parker Hannifin Manufacturing France SAS;
    IPC主号:
    专利说明:

    [0001] FIELD OF THE INVENTION The present invention relates to a device for rapid connection of a tube to a fluid transport circuit element. The invention more particularly relates to cartridge type quick coupling devices. BACKGROUND OF THE INVENTION Cartridge-type quick-connect devices are known which are intended to be inserted into a cylindrical well formed in an element of a fluid transport circuit such as a pump, a distributor or an actuator. a pneumatic module, a flow or pressure regulator or another tube. Such a device generally comprises a tubular body internally provided with a toothed washer retaining a tube and provided externally with means for anchoring the device in the cylindrical well. The device often comprises a tubular disconnecting pusher which is slidably mounted in a channel of the tubular body between an extended position and a recessed position and which is intended, when pressed into the body, to act on the teeth of the tubular disc. the retaining washer of the tube to cause the release of the latter.
    [0002] In a particularly elaborate version, the body of the device has, opposite the pusher, an axially projecting end of which extends a protective ring which carries an annular sealing gasket. During the insertion of the device into the well, this ring bears against an inlet shoulder of a well housing and detaches from the end of the body to slide on the body as and when the insertion of the device to retract so that the annular seal will be pushed alone in this well housing.
    [0003] Generally, the part of the body carrying the protective ring, and on which the latter slides, is integral with an insert which is clipped into the body and receives the sliding pusher. This insert makes it simpler to mount the retaining washer, trapped between the body and the insert. For some applications, and particularly in pneumatic installations that include equipment connected by multiple tubes to other elements of the pneumatic circuit of these installations, installers seek to provide more and more compact and light equipment. Such specifications involve in particular reducing the spacing between the tubes connecting the equipment to other elements of the pneumatic circuit. This distance is, in particular, related to the diameter of the well receiving the cartridge quick coupling device, and therefore the size of the cartridge. It was first considered to reduce the thickness of the materials constituting the elements of the cartridge. However, it has been found that a significant reduction can not be achieved with commonly used materials, such as injectable plastics, without compromising the mechanical characteristics of the device. It has also been envisaged to use other more resistant materials such as steel, but shaping operations (stamping or machining) make this solution uneconomical. Finally, the increase in mass induced by the use of such materials is incompatible with the objectives of lightness of the installers. OBJECT OF THE INVENTION The object of the invention is to provide a cartridge type connection device having a smaller footprint compared to existing devices. SUMMARY OF THE INVENTION For this purpose, there is provided a cartridge type quick coupling device insertable in a well of a circuit element to be connected to a tube of longitudinal axis. The device comprises a tubular body delimiting a channel, a retaining washer of the tube in the device, a tubular disconnecting pusher which is slidably mounted in the channel and which delimits a conduit for passage of the tube, and means for anchoring the tube. connecting device in the well. The body has an end provided with a retractable ring which extends in axial projection from said end to internally bear an annular sealing member of the connecting device and to be able to be brought back onto the body to release the organ annular sealing in the well. According to the invention, the retaining washer is disposed in the retractable ring between the body and the annular sealing member. This arrangement makes it possible to dispense with an insert for mounting the retaining washer, limiting the radial size of the device. Advantageously, the spacer is of substantially annular shape and comprises a first contact face with the transversely extending annular seal and a second face opposite to the first comprising an internal chamfer. This makes it possible to ensure uniform contact of the first face with the seal and to allow movement of the teeth of the retaining washer when the disconnection pusher is actuated.
    [0004] According to a preferred embodiment, the protective ring is connected to the central sleeve by a frangible wall, which helps to reduce the size of the device and its production costs. Preferably, the anchoring means of the tubular body 5 in the housing comprise an outer anchor washer carried by the tubular disconnecting pusher. According to a particular embodiment, the end of the tubular pusher facing the retaining washer of the tube comprises at least one axial slit. This slot allows greater flexibility of the end of the tubular pusher and facilitates the mounting thereof in the quick connect device. BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will appear on reading the following description of a particular non-limiting embodiment of the invention in relation to the attached figures among which: Figure 1 is a half-sectional view of the device according to the invention, before installation in the well; FIG. 2 is a half-sectional view of the device of FIG. 1, after it has been installed in the well; - Figure 3 is a half-sectional view of the device of Figure 1, during the insertion of the device in the well; FIG. 4 is a half-sectional view of the device of FIG. 1 at the end of the insertion of the device into the well; - Figure 5 is a half-sectional view of the device of Figure 1, in position in the well and connected to a tube; Figure 6 is a view of the section of an annular seal of the device of Figure 1; - Figure 7 is a detailed view of the anchor washer of the device of Figure 1; - Figure 8 is a sectional view along an axis VIII-VIII of the washer of Figure 7; - Figure 9 is a detail view of the anchor washer according to an alternative embodiment; FIG 10 is a sectional view along an axis X-X of the washer of Figure 9; - Figure 11 is a detail view of the anchor washer of Figures 7 and 8; FIG. 12 is a detailed view of the anchor washer of FIGS. 9 and 10. DETAILED DESCRIPTION OF THE INVENTION FIGS. 1 to 5 show a generally designated cartridge-type quick coupling device 1 intended for be inserted through an opening 101 in a well 102 of a circuit element 100. The well 102 is in fluid communication with a channel 103 of the circuit element 100 to which a tube 104 (visible in dashed line on the FIG. 5) once it is engaged in the connection device 1. The connection device 1 comprises a body, generally designated 2, which has a tubular shape extending along a longitudinal axis X and delimiting an internal channel 3. The body 2 comprises a first end 2.1 through which the device 1 is intended to be engaged in the well 102 and a second end 2.2 intended to extend in the vicinity of the opening 101 when the d ispositif is in well 102.
    [0005] More specifically, the body 2 in the form of a central sleeve 4 having a shoulder 4.2 on the side of the end 2.2 of the body 2 and an opposite end 4.1 to which is connected a retractable ring 5 projecting axially from the end 4.1. This retractable ring 5 is connected by a frangible wall 6 to the end 4.1 of the central sleeve 4. The retractable ring 5 has a length greater than the length of the central sleeve 5 between the end 4.1 and the shoulder 4.2. The connecting device 1 also comprises a disconnecting pusher 7, of tubular form, slidably mounted inside the channel 3. The disconnection pusher 7 comprises, at its first end 7.2, which projects axially towards the side of the 2.2 end of the body 2, a first annular shoulder 7.3 followed by a second annular shoulder 7.4, frustoconical in shape of which the smaller diameter portion faces an outer anchor washer 8. The second annular shoulder 7.4 is formed by a surface of a flange whose outer diameter is substantially equal to the diameter of the well 102 so that said collar provides a guide of the disconnection pusher 7 in the well 102. The second end 7.1 of the disconnection pusher 7 faces a washer internally tooth 9 retaining the tube 104 and is beveled so as to lift the teeth of said internally toothed washer 9 when the louse The disconnecting plunger end 7 is pressed into the body 2. The end 7.1 of the disconnecting plunger 7 comprises two axial slots 7.5 at 180.degree. from each other and extending for approximately one third of the length of the disconnecting plunger. 7. The slots 7.5 facilitate the establishment of the anchor washer 8 and the central sleeve 4 on the disconnection pusher 7. The disconnection pusher 7 defines a conduit 12 for passage of the tube 104 and carries the washer anchoring 8 located between the second shoulder 7.4 of the disconnection plunger 7 and the shoulder 4.2 of the central sleeve 4. The fact that this outer anchor washer 8 is carried by the disconnection pusher 7, means that the anchor washer 8 is held in position relative to the other elements of the device 1 in particular through the disconnection pusher 7 and is in contact with the disconnection pusher 7.
    [0006] The retractable ring 5 is now described in detail. This door internally, successively from its distal end to the end 4.1 of the central sleeve 4, an annular seal 10, a spacer 11 and the internally toothed washer 9 retaining the tube 104. The spacer 11 has an annular shape of inner diameter greater than the outer diameter of the tube and is mounted in the retractable ring 5 between the seal 10 and the internally toothed washer 9 retaining. The fact that the retractable ring 5 internally carries the seal 10, the spacer 11 and the internally toothed washer 9 means that these elements are held in position relative to the other elements of the device 1, notably thanks to the retractable ring 5 and that they are in contact with it. The retractable ring 5 has an inner diameter D51 slightly greater than the outer diameter D41 of the central sleeve 4 (see Figure 3). The retractable ring 5 can then slide in an axial direction a distance slightly greater than the width of the seal 10 before coming into abutment on the face of the shoulder 4.2 opposite the end 2.2 of the tubular body 2.
    [0007] Referring to Figures 1 to 5, is detailed the establishment of the quick coupling device 1 in the well 102. When inserting the connecting device 1 in the well 102, the end of the retractable ring 5 comes into abutting against a shoulder 105 of the well 102 (Figure 2). The installer then has a cylindrical assembly bell 20 resting on a radial face of the shoulder 7.3 of the disconnection pusher 7 (FIG. 3). A circular rim 21 protrudes from the assembly bell 20 and extends around the shoulder 7.3 to facilitate the centering of the assembly bell 20 on the disconnection pusher 7 and to prevent too much depression of the as we will see later. The user then applies a moderate insertion force F (here less than or equal to 50 decanewtons) on the face of the assembly bell 20 opposite that which bears against the shoulder 7.3. This effort F will cause abutment of the shoulder 7.4 of the disconnection pusher 7 against the shoulder 4.2 of the central sleeve 2 by compressing the anchor washer 8. For this purpose, the shapes of these three elements are complementary and arranged to reduce the portion of the teeth of the anchor washer 8 projecting radially from the body 2 when the latter is clamped between the shoulders 7.4 and 4.2, facilitating the insertion of the anchor washer 8 into the well 102 Subject to the insertion force, the breakable wall 6 breaks and then allows the relative sliding of the retractable ring 5 relative to the rest of the connecting device 1. Thus, the displacement of the tubular disconnector 7 abuts against the central sleeve 4 drives the translation, relative to the retractable ring 5 and the well 102, the central sleeve 4 which will push the elements carried by the retractable ring 5 (namely the washer internally den 9, the spacer 11 and the seal 10) to a housing 107 of the well 102. This translation takes place until the edge of the circular flange 21 bears on the circuit element 100. This corresponds to the abutment of the radial face of the seal 10 against a wall 106 of the housing 107. It will be noted that then a portion of the spacer 11 is also received in the housing 107 while the other part the spacer 11 and the internally toothed washer 9 remain in the portion of the retractable ring 5 which remains projecting from the central sleeve 4. The user then deposits the mounting bell 20. Under the effect of the return to position of teeth of the internally toothed washer 9, the disconnection plunger 7 returns to its initial position against an inner abutment of the central sleeve 4. In doing so, the disconnection plunger 7 is disengaged from the anchoring washer 8 (FIG. the connecting device ra 1 in the well 102. The tube 104 can then be introduced into the conduit 12 of the disconnection pusher 7 to be hermetically connected to the channel 103. In this position, it is noted that the collar forming the shoulder 7.4 is opposite the inner wall of the well 102 and serves to guide and center the disconnection pusher 7 in the well 102. This provides a quick coupling device wherein the thickness of the ring 5 contributes to the mechanical strength when the device is in place, thus reducing the size of the device. When pressurizing the circuit in which the device of the invention is implanted, it will be ensured that, despite a relatively large retraction of the cartridge, the seal 10 preferably remains entirely in the housing 107 so that to avoid a risk of flight. Such a recoil occurs for example when the well 102 is made of a relatively soft material: the teeth of the anchor washer 8 will penetrate deeper into the soft material. Preferably, and with reference to FIG. 6, the seal 10 is, here, a seal having a bead on its outer circumferences 10.1 and inner 10.2, and the bead 10.3 of the inner circumference 10.2 is connected to at least one side faces 10.4 and 10.5 of the seal 10 by a frustoconical surface not tangent to the inner bead 10.3.
    [0008] Advantageously, the spacer 11 is of substantially annular shape and comprises a first face 11.1 of contact with the seal 10 extending transversely and a second face 11.2, opposite to the first, comprising an internal chamfer 11.3.
    [0009] This inner bevel 11.3 allows the teeth of the internally toothed washer 9 to be opened at the passage of the tube 104 or when the disconnecting pusher 7 is actuated. The outer surface of the spacer 11 is also provided with an annular groove 11.4. - Here of substantially triangular section that saves material, weight and avoid the phenomenon of shrinkage of the material of the spacer, thus ensuring improved geometric compliance.
    [0010] Finally, the fact that this groove is not arranged symmetrically to the axis of the part allows to use it as a key in the automatic manufacturing machines of the quick-connect device 1. The anchor washer 8 will now be described in more detail in relation with FIGS. 7 to 12. The anchor washer 8 is metallic and comprises teeth 8.1 connected by circumferential portions 8.2 to be elastically deformable between a state of rest in which the anchor washer 8 has an outer diameter greater than the diameter of the well 102 and a deformed state in which the anchor washer 8 has an outer diameter smaller than the diameter of the well 102. Each tooth 8.1 has a free portion with a terminal edge 8.3 to bite into the wall of the well. well and a portion connected to the circumferential portions. It has been found that, in order to bite into a hard material (such as steel), it is advantageous for the end edge to have a shape that locally allows for a concentration of stresses on the wall of the well and, for biting into a soft material (such as a synthetic material such as polyamide), it was advantageous that the end edge has a shape allowing a relatively long length / contact surface with the wall of the well. According to a first particularly advantageous characteristic, the free portion of the teeth is widened relative to the bonded portion and the terminal edge comprises at least one portion promoting the stress concentrations at a distance from the ends of the terminal edge. The portion promoting the stress concentrations at a distance from the ends of the terminal edge facilitates penetration into relatively hard materials. The widening of the free portion and the positioning of the portion promoting the stress concentrations at a distance from the ends of the terminal edge makes it possible to have a relatively long length / contact surface with the wall of the well when the latter is made in a relatively soft material.
    [0011] According to a preferred embodiment represented in FIGS. 7, 8 and 11, the anchor washer 8 comprises teeth 8.1 projecting outwards, the teeth being connected in pairs by a flat circumferential portion 8.2 which is elastically deformable in torsion to allow a movement of the teeth between a state of free passage of the body 2 in the well 102 and an anchoring state of the body 2 in the well 102. The teeth 8.1 are inclined rearwardly with respect to a main plane of the anchor washer 8 to promote the penetration of the teeth 8.1 in the wall of the well 102 when the device has a recoil movement (for example during pressurization of the circuit).
    [0012] The free portion of the teeth 8.1 is widened relative to the bonded portion 8.2 and the terminal edge 8.3 comprises a portion 8.4 promoting the stress concentrations at a distance from the ends of the terminal edge. The terminal edge 8.3 is in a circle section of diameter smaller than the diameter of the well, the free portion of the tooth 8.1 having a convex shape. Thus, the end edge 8.3 makes contact with the wall of the well 102 by its central portion only (which constitutes the portion 8.4), causing a concentration of stresses in the contact zone, which will facilitate the penetration of the teeth into the material. In the case where the material of the wall of the well is a relatively soft material, the penetration of each tooth 8.1 will allow a contact of a larger portion of the terminal edge 8.3 with the material constituting the wall of the well, which will distribute the constraints and increase the mechanical strength of the anchor. In the variant of FIGS. 9, 10 and 12, the free portion of the teeth 8.1 is as previously widened relative to the bonded portion 8.2 and the terminal edge 8.3 comprises two portions 8.4 favoring the stress concentrations at a distance from the ends of the terminal edge 8.3 . The end edge 8.3 comprises two end portions of convex rounded shape which are connected to one another by a central portion of concave rounded shape. Between each of the end portions and the concave end portion is formed a tip forming one of the portions 8.4. Thus, the end edge 8.3 makes contact with the wall of the well 102 by its portions 8.4 only, causing a concentration of stresses in these two contact zones, which will facilitate the penetration of the teeth into the material. In the case where the material of the wall of the well is a relatively soft material, the penetration of each tooth 8.1 will allow a contact of a larger portion of the terminal edge 8.3 with the material constituting the wall of the well, which will distribute the constraints and increase the mechanical strength of the anchor.
    [0013] Of course, the invention is not limited to the embodiment described but encompasses any variant within the scope of the invention as defined by the claims. In particular: - although here the anchoring of the tube is carried out using an anchor washer, the invention is also applicable to other anchoring means such as for example an elastic ring or a conical sleeve of contention between the tube and the well; although here the teeth 8.1 have an enlarged free end, the teeth 8.1 may have a straight shape (being delimited laterally by parallel edges) or a narrowing shape (being delimited laterally by radial edges). These shapes, however, are better suited for biting relatively hard materials, such as steel. In addition, although particularly interesting in the device of the invention, the widened teeth anchor washers, such as those of Figures 7 to 12, are used for anchoring any element in a well; - Although here the retractable ring is connected to the central sleeve by a frangible wall, the invention also applies to other modes of connection of the ring to the central sleeve such as a connection by gluing, clipping or by tight interlocking; - Although here the tubular disconnecting pusher comprises two axial slots, the invention also applies to a pusher comprising a different number of axial slots such as a single axial slot, three, four or more than two; the pusher may also not include a slot according to the rigidity of the materials used; - Although here the sealing of the tube in the well is provided by an annular seal comprising internal and external beads, the invention is also applicable to other types of annular sealing members such as a joint without beads, an annular seal of rectangular section, circular section or any section. The seal can also be obtained by using two joints possibly of different materials.
    权利要求:
    Claims (12)
    [0001]
    REVENDICATIONS1. Quick coupling device (1) of cartridge type insertable in a well (102) of a circuit element (100) to be connected to a tube (104) of longitudinal axis (X), comprising a tubular body (2) defining a channel (3), a retaining washer (9) of the tube (104) in the device (1), a tubular disconnecting pusher (7) which is slidably mounted in the channel (3) and which delimits a conduit (12) for passage of the tube (104), and anchoring means (8) for the connection device (1) in the well (102), the body (2) having an end provided with a retractable ring ( 5) which extends in axial projection from said end (2.1) to internally bear an annular sealing member (10) of the connecting device (1) and to be capable of being brought back onto the body (2) for releasing the annular sealing member (10) in the well (102), characterized in that the retaining washer (9) is arranged in the retractable ring e (5) between the body (2) and the annular sealing member (10).
    [0002]
    2. Device for quick connection (1) of a tube (104) according to claim 1, wherein a spacer (11) is mounted in the retractable ring (5) between the annular sealing member (10) and the retaining washer (9).
    [0003]
    3. Device for quick connection (1) of a tube (104) according to claim 2, wherein the spacer (11) is substantially annular in shape and comprises a first face (11.1) of contact with the annular member. sealing member (10) extending transversely and a second face (11.2) opposite to the first one comprising an internal chamfer (11.3).
    [0004]
    A quick coupling device (1) for a tube (104) according to claim 2 or 3, wherein the outer peripheral surface of the spacer (11) is provided with an annular groove (11.4).
    [0005]
    5. Device for quick connection (1) of a tube (104) according to claim 1, wherein the retractable ring is connected to the tubular body (2) by a frangible wall.
    [0006]
    6. Device for quick connection (1) of a tube (104) according to claim 1, wherein the anchoring means of the tubular body (2) in the well (102) comprise an external anchoring washer (8). .
    [0007]
    7. Device for quick connection (1) of a tube (104) according to claim 6, wherein the outer anchor washer (8) is carried by the tubular disconnecting pusher (7).
    [0008]
    The quick coupling device (1) of a tube (104) according to claim 6, wherein the outer anchor washer (8) comprises outwardly projecting teeth (8.1), the teeth (8.1). being connected in pairs by a flat circumferential portion (8.2) which is elastically torsionally deformable to allow movement of the teeth (8.1) between a free passage state of the tubular body in the well (102) and an anchoring state of the tubular body (2) in the well (102).
    [0009]
    9. Device for quick connection (1) of a tube (104) according to claim 6, wherein the anchor washer (8) comprises teeth (8.1) connected by circumferential portions (8.2) to be elastically deformable between a state of rest in which the anchor washer has an outer diameter greater than the diameter of the well and a deformed state in which the anchor washer has an outside diameter less than the diameter of the well, each tooth 8.1 having a free portion with a 8.3 terminal edge for biting into the wall of the well and a portion related to the circumferential portions, the free portion of the teeth being enlarged relative to the bonded portion and the terminal edge having at least a portion (8.4) promoting the stress concentrations at a distance from the ends of the terminal edge.
    [0010]
    10. Device for fast connection (1) of a tube (104) according to claim 9, wherein the terminal edge (8.3) is in a circle section of diameter less than the diameter of the well, the free portion of the tooth (8.1 ) having a convex shape.
    [0011]
    11. A quick coupling device (1) for a tube (104) according to claim 9, wherein the end edge (8.3) comprises two end portions of convex rounded shape which are connected to each other by a central portion of concave rounded shape, between each of the end portions and the concave end portion being formed a tip
    [0012]
    12. A quick coupling device (1) for a tube (104) according to claim 1, wherein the end (7.1) of the tubular disconnecting pusher (7) facing the retaining washer of the tube (8) comprises at least one axial slot (7.5).
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    同族专利:
    公开号 | 公开日
    US20150152989A1|2015-06-04|
    CN104676166B|2017-04-12|
    EP2878873B1|2017-02-22|
    EP2878873A1|2015-06-03|
    CN104676166A|2015-06-03|
    FR3014167B1|2015-12-18|
    US9746114B2|2017-08-29|
    引用文献:
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    FR2876774A1|2004-10-20|2006-04-21|Legris Sa|DETACHABLE CONNECTION CARTRIDGE|
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    CN202756803U|2012-08-01|2013-02-27|许道泽|Quick connector|KR102121628B1|2010-10-15|2020-06-17|스와겔로크 컴패니|Push to connect conduit fitting with ferrule|
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    EP3060839B1|2013-10-24|2020-03-18|Swagelok Company|Single action push to connect conduit fitting|
    ES2755400T3|2015-04-23|2020-04-22|Swagelok Co|Push connector set for conduit connection|
    US10458582B2|2015-04-23|2019-10-29|Swagelok Company|Single action push to connect conduit fitting with colleting|
    CN106499897B|2016-12-27|2019-02-12|利欧集团浙江泵业有限公司|Quick-release connector|
    US11112038B2|2018-08-02|2021-09-07|Georg Fischer Central Plastics Llc|Pipe-fitting|
    法律状态:
    2015-11-30| PLFP| Fee payment|Year of fee payment: 3 |
    2016-07-12| PLFP| Fee payment|Year of fee payment: 4 |
    2016-11-30| PLFP| Fee payment|Year of fee payment: 4 |
    2018-08-31| ST| Notification of lapse|Effective date: 20180731 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1361907A|FR3014167B1|2013-11-29|2013-11-29|RAPID CONNECTION DEVICE OF CARTRIDGE TYPE|FR1361907A| FR3014167B1|2013-11-29|2013-11-29|RAPID CONNECTION DEVICE OF CARTRIDGE TYPE|
    EP14195275.4A| EP2878873B1|2013-11-29|2014-11-27|Cartridge-type quick-coupling device|
    CN201410710797.4A| CN104676166B|2013-11-29|2014-11-28|Cartridge type quick coupling device|
    US14/556,541| US9746114B2|2013-11-29|2014-12-01|Cartridge type quick coupling device|
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