DUCT-CONNECTING DEVICE

Abstract

A fluidic connection device couples a first end piece of a first tubing/equipment item and a second end piece of a second item/equipment item. The first constitutes a female end piece with a first tubular ending with a smooth internal face, the external face carrying a locking pin or claw. The second end piece constitutes a male end piece with a second tubular ending forming with the first tubular ending a mating part and whose smooth outer face forms a sealed link for the connection with the first tubular ending's smooth inner face. The second end piece includes: a skirt surrounding the mating part; and a spring tongue with a reception housing receiving the pin, locking the first and second end pieces together. The skirt is coupled to a rear part of the second tubular ending by an annular crown forming an introduction stop of the first tubular ending.

Claims

1. A fluidic connection device for coupling a first end piece of a first tubing item or of a first equipment item and a second end piece of a second tubing item or a second equipment item, the fluidic connection device comprising the first end piece and the second end piece, wherein the first end piece constitutes a female end piece which comprises a first tubular ending provided with an external face that carries at least one locking pin or claw, the first tubular ending also having an internal face that is smooth, wherein the second end piece constitutes a male end piece which comprises a second tubular ending forming with the first tubular ending a mating part, the second tubular ending having an outer face that is a smooth face configured to form with the smooth inner face of the first tubular ending a sealed link in a connection state in which the first end piece and the second end piece are directly engaged and locked together, said second end piece further comprising: a skirt configured to at least partially surround the mating part; and a spring tongue provided with a reception housing for receiving said pin, the spring tongue locking the first end piece and the second end pieces together, and wherein the skirt is coupled to a rear part of the second tubular ending by an annular crown forming, between the second tubular ending and the skirt, an introduction stop of the first tubular ending.

2. The fluidic connection device according to claim 1, wherein the skirt, which extends from the crown, is at least partly interrupted by the spring tongue.

3. The fluidic connection device according to claim 1, wherein the spring tongue comprises two arms each provided with two respective arm ends, wherein each of the two arms is integral, at a first one of the two respective arm ends, with the annular crown and wherein the two arms are linked by a plate provided with a snap-fastening wall for snap-fastening with the locking pin, each of the two arms joining the plate by a second one of the two respective arm ends, said reception housing being delimited by the annular crown, the two respective arms and the snap-fastening wall.

4. The fluidic connection device according to claim 3, wherein the plate carries an operating pusher and wherein the skirt carries an arch forming a protection bridge for the spring tongue and the operating pusher.

5. The fluidic connection device according to claim 1, wherein the external face of the first tubular ending carries, at the mating part, at least one axial rib for angular keying, configured to cooperate with a complementary axial groove provided at the skirt, and wherein the skirt includes a skirt projection towards a free end of the second end piece, with the complementary axial groove being formed at the skirt projection, so that the axial rib engages the complementary axial groove from a start of a mating of the first tubular ending and the second tubular endings.

6. The fluidic connection device according to claim 1, wherein the first end piece is a single piece and the second end piece is another single piece.

7. The fluidic connection device according to claim 1, wherein the second end piece is part of a coupler configured to be connected to a first tubing at a first coupler connecting end and to a second tubing at a second coupler connecting end, the coupler comprising: the male end piece formed by the second end piece, said second end piece being formed as said first coupler connecting end to establish connection with the first tubing, and wherein said first tubing comprises the female end piece formed by the first end piece.

8. The fluidic connection device according to claim 7, wherein the second coupler connecting end, arranged opposite the first coupler connecting end, comprises a connection device, for connection onto a second tubing, wherein the second coupler connecting end comprises a female coupling ending extended at a free end thereof by a first retention and keying part while said second tubing comprises a male insertion end piece provided with a second retention and keying part, complementary to said first retention and keying part, extending towards an end of the male insertion end piece by a male coupling ending.

9. The fluidic connection device according to claim 3, wherein the second end piece is part of a coupler configured to be connected to a first tubing or equipment at a first coupler connecting end and to a second tubing or equipment at a second coupler connecting end, the coupler comprising: the male end piece formed by the second end piece, said second end piece being formed as said first coupler connecting end to establish connection with the first tubing or equipment, and wherein said first tubing or equipment comprises the female end piece formed by the first end piece and wherein the coupler further comprises, at the second coupler connecting end, a spring tongue allowing snap-fastening with the second tubing or equipment.

10. The fluidic connection device according to claim 7, wherein the first coupler connecting end is provided with at least one internal keying groove configured to cooperate with at least one complementary external keying rib of a tubular coupling ending.

11. The fluidic connection device according to claim 7, wherein the second coupler connecting end is provided with at least one internal keying groove configured to cooperate with at least one complementary external keying rib of a tubular coupling ending.

12. The fluidic connection device according to claim 7, wherein the coupler is made in one piece and comprises a bent part located between the a first coupler connecting end and the second coupler connecting end, which are opposite ends of the coupler.

13. The fluidic connection device according to claim 9, wherein each of first coupler connecting end and the second coupler connecting end is cylindrical and extends until an annular junction line with the bent part, each of the first coupler connecting end and the second coupler connecting end having a cylinder length smaller than an internal diameter delimited by the first coupler connecting end.

14. The fluidic connection device according to claim 4, wherein the first tubular ending extends around a central axis, the operating pusher protruding radially outwards from the plate and being configured to be actuated by a longitudinal thrust parallel to the central axis.

15. The fluidic connection device according to claim 1, wherein the first end piece belongs to a filtration device.

16. The fluidic connection device according to claim 7, wherein the first tubing belongs to a filtration device.

17. The fluidic connection device according to claim 2, wherein the spring tongue comprises two arms each provided with two respective arm ends, wherein each of the two arms is integral, at a first one of the two respective arm ends, with the annular crown, and wherein the two arms are linked by a plate provided with a snap-fastening wall for snap-fastening with the locking pin, each of the two arms joining the plate by a second one of the two respective arm ends, said reception housing being delimited by the annular crown, the two respective arms and the snap-fastening wall.

18. The fluidic connection device according to claim 2, wherein the external face of the first tubular ending carries, at the mating part, at least one axial rib for angular keying, configured to cooperate with a complementary axial groove provided at the skirt, and wherein the skirt includes a skirt projection towards a free end of the second end piece, with the complementary axial groove being formed at the skirt projection, so that the axial rib engages the complementary axial groove from a start of a mating of the first tubular ending and the second tubular ending.

19. The fluidic connection device according to claim 3, wherein the external face of the first tubular ending carries, at the mating part, at least one axial rib for angular keying, configured to cooperate with a complementary axial groove provided at the skirt, and wherein the skirt includes a skirt projection towards a free end of the second end piece, with the complementary axial groove being formed at the skirt projection, so that the axial rib engages the complementary axial groove from a start of a mating of the first tubular ending and the second tubular ending.

20. The fluidic connection device according to claim 4, wherein the external face of the first tubular ending carries, at the mating part, at least one axial rib for angular keying, configured to cooperate with a complementary axial groove provided at the skirt, and wherein the skirt includes a skirt projection towards a free end of the second end piece, with the complementary axial groove being formed at the skirt projection, so that the axial rib engages the complementary axial groove from a start of a mating of the first tubular ending and the second tubular ending.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] Other characteristics, details and advantages of the invention will appear when reading the detailed description below, and analyzing the appended drawings, in which:

[0029] FIG. 1 shows a prior art connection device in a cross-sectional view;

[0030] FIG. 2 shows a connection device according to the present application in cross-sectional perspective;

[0031] FIG. 3 shows a male part of the connection device according to the application in three-quarter face perspective view;

[0032] FIG. 4 shows a perspective view of a coupler according to an aspect of the application, of an equipment item and a tubing item.

DESCRIPTION OF EMBODIMENTS

[0033] The drawings and the description below contain, for the most part, elements which are certain. They may therefore not only be used to better understand the present invention, but also contribute to the definition thereof, if necessary.

[0034] The device of the invention applies particularly to air filtration systems for motor vehicles.

[0035] As seen above, the fluidic connection device of the prior art, visible in FIG. 1, comprises a coupling portion and a locking portion which follow each other, the locking portion being located behind the coupling portion.

[0036] The invention of the present application relates to a fluidic connection device of the quick connector type between a duct portion carrying a male end piece 2 and a duct portion carrying a female end piece 1 represented in FIG. 2. Locking the two portions one in the other is achieved by engaging retention lugs, made in the form of spring tongues 4 of the duct carrying the male end piece, on the rear walls 52 of pins 5 of the duct carrying the female end piece. An axial retention is thus obtained, by typically being able to place pin 5 in a front segment adjacent to a front/leading edge of the female end piece 1.

[0037] The spring tongue 4 comprises a housing for receiving the pin 5. This housing is for example delimited by the annular crown 6, by two arms 42 integral at a first one of their ends with the annular crown 6 and linked at a second one of their ends, and by a plate 45 provided with a snap-fastening wall for snap-fastening with the locking pin 5.

[0038] A mating part (herein cylindrical) defining an annular contact zone is formed by covering portions having a cylindrical span distributed between the female end piece 1 and the male end piece 2. The axial retention of the two duct portions is obtained by the end of the female end piece 1 abutting against the annular crown or wall 6 and the wall/snap-fastening end carried by the plate 45 of the spring tongues 4 engaging against the rear wall 52 forming a locking stop of the pin 5. The pin 5 further comprises a ramp 51 allowing the spring tongue 4 to rise on the pin 5 while the end pieces are brought to mating. Preferably, the device comprises two locking devices arranged at 180° to each other. The spring tongues 4 of the retention lugs are flexible enough not to cause breakage over repeated use.

[0039] The plate 45 carries an operating pusher 43 which allows the plate to be disengaged from the pin. Although each spring tongue 4 is herein illustrated as being able to be actuated by an operating pusher 43 provided on the male end piece 2 and able to be actuated by a longitudinal thrust substantially parallel to the central axis of the female end piece 1 (axis which makes it possible to define an insertion direction for the male end piece 2), other modes of actuation can be provided. Optionally, the actuation could be enabled by pressing on or by stressing an elastically deformable actuation portion which is integral with the female end piece 1.

[0040] According to the invention, the fluidic connection device comprises an outer skirt 3 intended to at least partially surround the mating part. This outer skirt 3, more particularly shown in FIG. 3, frames the spring tongues 4 of the retention lugs which interrupt it and further comprises an arch 44 forming a protection bridge for the spring tongue 4 and the operating pusher 43.

[0041] The outer skirt 3 also features grooves 8 for receiving keying ribs 7 carried by the female end piece 1. According to the example shown, the grooves 8 which are featured internally by skirt 3 are two in number and disposed at 180° to each other. Each groove 8 communicates directly with the annular reception space for receiving an end of the female end piece carrying the ribs 7 (end then being sandwiched between the male end piece insertion segment and the skirt 3).

[0042] To allow keying to take place as soon as mating starts, the skirt 3 has extensions towards the front of the mating part which carry the grooves 8.

[0043] The groove(s) 8, made in a projection or an extension of the skirt 3 towards the free end of the male end piece 2, are configured to allow engagement of the axial rib(s) 7, which start at the mating end of the female end piece 1, from the start of the mating of the coupling endings of the connection device.

[0044] The outer skirt 3 forms an annular reception space closed at one end thereof for the reception of a tubular ending herein forming the female connection part (female end piece 1). This annular space is internally delimited by a tube segment forming the internal face for the fluid passage. The tube segment is an insertion part to be inserted into the female end piece 1, which extends between a free annular edge and the annular region where the crown 6 is coupled, from the outside. This segment is thus stiffened from the outside at the peripheral connection/junction with the crown 6. The internal face of the insertion segment can be smooth, without relief and/or without internal shoulder. More generally, the internal face provided in the duct portion including the male end piece 2 can be kept smooth over a greater distance than the longitudinal extension of the insertion segment (therefore both at the level of the insertion segment and in a segment that follows). As will be described later, the male end piece 2 can form part of a coupler with two connection ends, possibly in the form of a bent coupler. The absence of relief or stiffening element on the internal face of the side of the male end piece 2 with the external skirt 3 (male end piece 2 which is typically more complex than the female end piece 1) can then allow, if necessary, to lengthen the effective sealing length achieved in the mating part. The mating part can be constituted by the insertion segment of the male end piece 2 and the corresponding end portion of the female end piece 1, which overlap in the mated state.

[0045] The pieces of the fluidic connection device are plastic pieces and according to the present application, the plastic/plastic sealing on the internal wall of the male part 1 and the external wall of the female part 2 is made on smooth walls devoid of seals. The sealing obtained in the framework of the invention being applied to air circuits is a sealing compatible with an engine air intake circuit or a vehicle passenger compartment air circuit.

[0046] As seen above, the mating part is separated from the locking zone because the snap-fastening/locking device is located on the outer skirt 3. This allows particularly compact implementation shapes. Thus, the ratio between the effective sealing length obtained in this mating part and the total length of the overlap can be greater than 80:100, preferably greater than or equal to 89:100. For example in the case of FIG. 4, the female end piece 1 can represent a sealing span having a length in the order of 30 or 35 mm, without the corresponding male end piece 2 being necessarily of a length significantly longer. There is no added seal (no technical seal), whereby an assembly operation is avoided. The span is substantially cylindrical in the non-limiting illustrated examples. This type of overlap between the mating part and the locking zone can advantageously contribute to improving compactness, knowing that the aforementioned ratio generally does not exceed 40:100 with an arrangement of the type shown in FIG. 1, one of the end pieces (carrying the actuating lugs in the example of FIG. 1) being much longer than the useful span to achieve sealing.

[0047] The invention makes it possible in particular to produce RC connections between two tubing items or a tubing item and an equipment item. FIG. 4 represents a coupler RC, a first part of which is being coupled with an equipment item 60, for example an air filter, provided with a coupling ending A and a second part of which is being coupled to a duct C. The invention can be applied in the event that the equipment item 60 is replaced by a duct, as well as in the event that the duct C is replaced by an equipment item.

[0048] A first end RC1 of the coupler includes the male end piece 2 of a connection device of the invention while the ending A of said first tubing or equipment item 60 includes the female end piece 1 of said connection device of the invention.

[0049] On the other hand, in this exemplary embodiment, the second end RC2 of the coupler RC comprises a connection device, on a second tubing item or equipment item C, of the reversed gender to the connection device of the invention. That is to say that the second end of the coupler comprises a coupling ending or female end piece 101 extended at the free end thereof by a first retention 102 and keying part 103 while said second tubing item C comprises a male end piece, named male insertion end piece, provided with a second retention 202 and keying part 203, complementary to said first retention and keying part, which is followed towards the end of the male insertion end piece by a male coupling ending 201 (herein with the type of pins 5 similar to those described with reference to FIG. 2).

[0050] More generally, this second end RC2 of the coupler RC thus makes it possible to connect the coupler RC to another type of end piece, for example an end piece as that illustrated in FIG. 1.

[0051] This coupler RC constitutes in this case a male-female coupler provided at the two ends thereof with spring tongue 4 snap-fastening means intended to cooperate with snap-fastening stops, herein in the form of pins 5, disposed on an external face of tubular coupling endings for tubing or equipment items. Similarly, this male-female coupler is provided at the two ends thereof with internal keying grooves 8, 103 intended to cooperate with external keying ribs 7, 203 of a tubular coupling ending of a tubing item or of an equipment item.

[0052] Depending on the layout of the fluidic circuit, the keying means and the snap-fastening means can have different angular positions between the first end and the second end of the coupler.

[0053] The coupler RC can be made in one piece. It comprises, herein as illustrated in FIG. 4, a bent part PC located between two opposite ends of the coupler RC. Provision may be made for each of the two ends, which are herein cylindrical, to extend (with substantially the same cylindrical section for example) until a respective annular junction line with the bent part PC. For a gain in compactness, each of the two ends of cylindrical shape may have a cylinder length, as measured up to the junction line with the bent part, which is smaller than an internal diameter delimited by the first end.

[0054] The coupler RC shown is an bent coupler with a bent part PC but can also be a straight coupler if necessary.

[0055] An alternative embodiment, is that the first and the second end of the coupler are both provided with the male end piece of the coupling device according to the application, the coupler constituting a male-male coupler provided with a protective skirt 3 at each end thereof. In this case, the end piece of the duct C will also be identical to the end piece A of FIG. 2, the device for connecting the coupler and the tubing or equipment items being then identical to that of FIG. 2 on both sides of the coupler. Such an embodiment makes it possible to shorten the end pieces carried by the tubing and equipment items on both sides of the coupler RC.

[0056] In FIG. 4, the equipment item 60 is for example an air filter, optionally for a thermal combustion engine and the female end piece 1, formed directly on a casing, can make it possible to achieve sealing over a length greater than 20 or 25 mm, without the tubing item carrying the female end piece 1 protruding over more than 30 or 35 mm from the rest of the casing of the equipment item 60. Here the female end piece projects along a direction parallel to a length of the casing and/or to a plane of a support frame of an air filtration filter element mounted in the casing. The filtered air flow flows perpendicular to this plane to pass from an inlet to an outlet of the air filter. The female end piece 1 forms the externally projecting part of one among the inlet and the outlet of the air filter in this non-limiting example.

INDUSTRIAL APPLICATION

[0057] The invention can be applied in particular to coupling air distribution ducts with each other, to coupling an air intake duct and an engine or passenger compartment air filter casing of a motor vehicle or of an air conditioning system.

[0058] The invention is not limited to the examples described above purely by way of example, but it encompasses all the variants that a person skilled in the art may consider in the framework of the sought protection.