FR2864151A1 - Water outlet box for cooling circuit of cylinder head of internal combustion engine of motor vehicle, has pipe portion with end opening located opposite and adjacent to opening in mounting position of insert - Google Patents

Abstract

The box has a body (2) with an opening (6) formed in its side wall and an insert (7) forming a pipe portion (8) inside the body. The pipe portion forms a bend (12) and has an end opening (9) located opposite and adjacent to the opening (6), in a mounting position of the insert. The insert has a part forming the pipe portion and another part forming a support and mounting frame. An independent claim is also included for a method of fabricating a water outlet box.

Description

1 DESCRIPTION

  The present invention relates to the field of fluid circulation control means, particularly in connection with motor vehicle equipment, and relates to a water outlet housing provided with a double-acting thermostat and a bypass tip , and a method of manufacturing such a housing.

  The known water outlet housings do not have bypass tip, they only regulate the flow of water in the direction of the longitudinal axis of the housing.

  However, a bypass has the advantage of allowing a diversion of a portion of the flow without penalizing the pressure drop in the main circuit portion. Thus, it is possible to obtain, for example during startup, a faster increase in the temperature of the fluid. Indeed, if one deflects the flow of fluid leaving the engine to a short circuit loop mounted directly on the engine, the volume of fluid passing through the loop is low, which causes a rapid rise in temperature of the fluid. Then, when the fluid has reached a predetermined temperature, it can be expected to lift this derivation.

  There is therefore a need to provide a housing for directing the flow, in addition to the longitudinal direction of the housing, also in a transverse direction so as to be able to direct it to an additional branch of a circuit. In this case, it is also advantageous that the internal structure of the housing having a derivation possibility remains identical to that of a casing without bypass duct, so as to ensure interchangeability of the two housings.

  For this purpose, the subject of the present invention is a water outlet housing, in particular for an internal combustion engine cylinder head cooling circuit, comprising a housing body comprising a flow control member passing through said housing in a longitudinal direction. of the latter and having a valve body movable in translation for closing an opening of a passage opening into the housing body and controlling the flow therethrough, water outlet housing characterized in that the housing body further comprises an opening formed in its constituent side wall and encloses an insert forming a portion of duct inside the body and one of whose end openings is located opposite and adjacent to said lateral opening, in a position of mounting said insert.

  The invention also relates to a method of manufacturing such a water outlet housing.

  The invention will be better understood, thanks to the following description, which relates to a preferred embodiment, given by way of non-limiting example, and explained with reference to the attached schematic drawings, in which: FIG. a longitudinal sectional view of the housing according to the invention in which the insert is mounted, and Figure 2 is an exploded perspective view showing the housing and the insert according to the invention.

  The appended figures represent a water outlet housing 1, in particular for an internal combustion engine cylinder head cooling circuit, comprising a housing body 2 comprising a flow control member 3 passing through said housing 1 in a longitudinal direction of this housing. last and having a valve body 4 movable in translation for closing an opening 5 of a passage 5 'opening into the housing body 2 and to control the flow therethrough. Characteristically, body 2 of casing 1 may further comprise an opening 6 formed in its constituent lateral wall and contain an insert 7 forming a portion of duct 8 inside the body 2 and one of which 9 openings end is located facing and adjacent to said lateral opening 6, in the mounting position of said insert 7. This opening may be intended to perform a deflection of the flow through the housing 1. Of course, the shape of the opening 9 of end of the conduit portion 8 will preferably correspond to the shape of the lateral opening 6, so as to avoid loss of charge.

  According to one characteristic of the invention, and as is apparent from FIG. 2, the insert 7 may have two integral parts, a first conduit portion 8 and a second mounting frame part 11, and the first part being located and maintained in the second part. The fact of using a frame-shaped part 11 has the advantage of causing only a minimum of disturbances in the flow of fluid passing through the casing 1.

  According to a first embodiment of the invention, the duct portion 8 can form a bend 12 including a section 13 is located in the fluid flow axis and a regulating member 3 can control the flow of fluid entering the fluid. this section 13, depending on the temperature of this fluid, for example.

  According to a second variant embodiment of the invention, the regulation member 3 of the flow passing through the casing 1 can be a double-acting regulator and comprise a second valve body 14 movable in translation in the longitudinal direction of the flow passing through the body. 2 of housing 1 and the end of the section 13 can be oriented with its opening 10 in the same longitudinal direction of the flow passing through the housing body 2 and said end opening 10 can form a valve seat or a flapper valve with this second valve body 14.

  Preferably, the opening 10 can be closed by the second valve body 14 when the regulating member 3 ensures the opening of the passage opening into the body body 2 by the first valve body 4.

  In this way, there is interaction between the regulating member 3 and the insert 7: when the regulating member 3 controls the displacement of the valve body 4 to open the passage 5 ', the valve body 14 is moved in translation to release the passage 5 'and rest on the opening 10 of the conduit portion 8, so that the passage of the flow in the conduit portion 8 (and thus to the lateral opening 6 of the housing body 2 1) is closed. Conversely, when the valve body 4 is controlled to close the flow passage to the opening 5, the flow can flow in the conduit portion 8.

  According to one characteristic of the invention, the regulator 3 may comprise a thermoactive or heat-reactive means such as a wax cartridge, bathed by the fluid present in the body 2 and actuating the translation of the first valve body. 4 at least, if necessary first and second valve body 4 and 14. This body must be disposed in the housing so that it is immersed in the fluid and that it reacts to the temperature of this fluid by the actuation of the valve bodies 4 and 14. It is therefore located preferably between the first valve body 4 and the second valve body 14, as shown in Figure 2.

  It is thus possible to make a temporary bypass of the fluid circuit at startup, as already mentioned above: when the fluid in which the thermoactive medium is immersed is cold, the valve 4 is in the closed position and the valve 14 in position opening and the fluid is deflected to the conduit portion 8, so to the opening 6 opening, for example, a closed loop on the engine. Then, when the fluid temperature has reached a certain value, the thermoactive means reacts so that the valve 14 is moved towards the end opening 10 of the section 13 to close the passage of the flow of fluid in the conduit portion 8 and that the valve 14 opens the passage 5 '.

  To limit the pressure drop and the occurrence of turbulence in the casing body 2, and according to a feature of the invention, the bend 12 of the duct portion 8 may have an ogival outer shape.

  According to another characteristic of the invention intended to limit the pressure drops in the housing body 2, the frame 11 may have an external shape corresponding to the internal structure of the housing body 2, so as to allow a fitting fit said insert 7 in said body 2.

  In order to allow an adjusted fitting of the insert 7 in the housing body 2, the insert 7 may have two opposed flat and parallel surfaces 15, 16 which cooperate in a controlled manner with two corresponding flat surfaces 15 ', 16'. located on the inner surface of the body 2 so as to form two pairs 15,15 'and 16,16' of flat surfaces in intimate contact making a fitting fit without play and with wedging of the insert 7 in the body 2 in the direction perpendicular to the two pairs 15,15 'and 16,16' of flat surfaces. In this way, a planar and intimate surface contact is made at the two pairs 15, 15 'and 16, 16' of flat surfaces making it possible to seal around the lateral opening 6.

  According to a characteristic of the invention, one 15 'of the two plane surfaces of the body 2 can be located at the level of the lateral opening 6 and the frame 11 for mounting and supporting the insert 7 can be made under the shape of a ring having two wings forming lateral sides 15, 16 arranged opposite one another, one of said sides being in the form of a flat surface 15 having the opening 9 of the portion of conduit 8 located opposite and adjacent to said opening 6, in the mounting position of said insert 7, so as to limit obstacles in the housing to achieve a continuous flow with a minimum of turbulence and pressure drops. In addition, the flat surfaces 16 and 16 'have the effect of pushing the flat surface 15 of the insert against the flat surface 15' of the inner wall of the housing body 2 and thus further improve the seal.

  The mounting and support frame of the insert 7 may furthermore have, for sealing between the insert 7 and the housing body 2, a flange 17 forming a shoulder which abuts an edge 18. of the mounting aperture 19 of the casing body 2 1.

  The seal can be further improved in that the frame 11 for mounting and supporting the insert 7 can be overmolded with a flexible synthetic material at its edges and edges in contact with the inner face of the wall. body 2 or with internal edges of the body 2 to achieve a seal. Advantageously, the end opening 10 forming a valve seat or valve valve for the second valve body 14 can also be overmolded with a flexible synthetic material to seal in the closed state of said opening. end 10. The synthetic material used for the overmoldings is preferably compressible and more flexible than the inner wall of the housing body 2, the material of the valve body 14 and the material of the conduit portion 8, so as to achieve a seal between the insert 7 and the body 2 of the housing 1 and between the insert 7 and the valve body 14 when the latter rests on the end opening 10 to close it.

  Preferably, the body 2 of the housing 1 may have, at the level of the lateral opening 6, a pipe or pipette 20 forming a continuous outer duct segment with the insert 7 and thus forming a diversion endpiece to a new loop or circuit branch.

  According to a feature of the invention, the housing 1 may also have an external connection pipe or pipette 21 at the opening 5 of the opening 5 'in the body 2 of the housing 1.

  Housing body 2 may further have a second lateral opening extending through an outer pipe 22 for receiving a temperature sensor.

  The subject of the invention is also a method for manufacturing a water outlet housing 1, characterized in that it consists of producing, in one piece, by molding a thermoplastic material, a housing 1 which furthermore has an opening 6 lateral, then to achieve by molding a thermoplastic material insert 7, to introduce a regulating member 3 having two valve body 4, 14 in the housing 1, overmolding a flexible synthetic material surfaces of the insert 7 intended to come into contact with the bearing surfaces of the inner wall of the casing body 1 and the end opening 10 forming the valve seat or flapper valve for the second valve body 14, and then to assemble said insert 7 in the housing body 2 1.

  Of course, the invention is not limited to the embodiment described and shown in the accompanying drawings. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention.

Claims (1)

7 CLAIMS   A water outlet housing, in particular for an internal combustion engine cylinder head cooling circuit, comprising a housing body comprising a flow control member passing through said housing in a longitudinal direction thereof and having a valve body. mobile in translation for closing an opening of a passage opening into the casing body and controlling the flow therethrough, water outlet housing characterized in that the body (2) housing (1) further comprises an opening (6) formed in its constituent side wall and contains an insert (7) forming a portion of conduit (8) inside the body (2) and one (9) of the end openings is located facing and adjacent to said lateral opening (6), in the mounting position of said insert (7).   Housing according to claim 1, characterized in that the insert (7) has two component parts in one piece, a first conduit portion portion (8) and a second mounting frame portion (11). and support, the first part being located and maintained in the second part.   3. Housing according to any one of claims 1 and 2, characterized in that the duct portion (8) forms a bend (12), a section (13) is located in the fluid flow axis and in that a regulating member (3) controls the flow of fluid entering this section (13).   4. Housing according to claim 3, characterized in that the regulating member (3) of the flow through the housing (1) is a double-acting regulator and comprises a second valve body (14) movable in translation in the longitudinal direction of the flow through the housing body (2) (1) and in that the end of the section (13) is oriented with its opening (10) in the same longitudinal direction of the flow passing through the housing body (2) (1) and that said end opening (10) forms a valve or valve seat for this second valve body (14).   5. Housing according to claim 4, characterized in that said opening (10) is closed by the second valve body (14) when the regulating member (3) ensures the opening of the passage opening into the body (2). ) of the housing (1) by the first valve body (4).   6. Housing according to any one of the preceding claims, characterized in that the regulating member (3) comprises a thermoactive or heat-reactive means such as a wax cartridge, bathed by the fluid present in the body (2) and actuating the translation of the first valve body (4) at least, if necessary first and second valve body (4 and 14).   7. Housing according to any one of claims 3 to 6, characterized in that the bend (12) of the conduit portion (8) has an ogival outer shape.   8. Housing according to any one of claims 2 to 7, characterized in that the frame (11) has an outer shape corresponding to the internal structure of the body (2) housing (1), so as to allow a fitting fitted to said insert (7) in said body (2).   Housing, according to any one of claims 2 to 8, characterized in that the insert (7) has two opposed planar and parallel surfaces (15, 16) which fitly cooperate with two flat surfaces (15 ', 16 ') located on the inner surface of the body (2) so as to form two pairs (15,15' and 16,16 ') of flat surfaces in intimate contact making a fit fitting without play and with setting of the insert (7) in the body (2) in the direction perpendicular to the two pairs (15,15 'and 16,16') of flat surfaces.   10. Housing according to claim 9, characterized in that one (15 ') of the two planar surfaces of the body (2) is located at the level of the opening (6) lateral and in that the frame (11) for mounting and supporting the insert (7) is in the form of a ring having two wings forming lateral sides (15, 16) arranged opposite one another, one (15) said sides being in the form of a planar surface (15) having the opening (9) of the duct portion (8) facing and adjacent said opening (6), in the mounting position of said insert (7). ).   Housing, according to any one of claims 8 to 10, characterized in that the mounting and support frame of the insert (7) has a flange (17) forming a shoulder which abuts on an edge ( 18) of the mounting opening (19) of the housing body (2) (1).   12. Housing according to any one of claims 1 to 11, characterized in that the frame (11) for mounting and support of the insert (7) is overmolded with a flexible synthetic material at its edges. and edges in contact with the inner face of the body wall (2) or with internal edges of the body (2) to provide sealing.   Housing according to claim 4 or any one of claims 5 to 12 as far as attached to claim 4, characterized in that the end opening (10) forming a valve seat or valve for the second valve body (14) is overmolded with a flexible synthetic material for sealing in the closed state of said end opening (10).   Housing, according to any one of claims 1 to 13, characterized in that the housing body (2) has, at the level of the lateral opening (6), a tubing or pipette (20) forming a continuous outer duct segment with the insert (7).   15. Housing according to any one of claims 1 to 14, characterized in that it has an external connecting pipe or pipette (21) at the opening of the passage opening into the body (2) housing ( 1).   Housing, according to any one of claims 1 to 15, characterized in that the body (2) of the housing (1) further has a second lateral opening extending through an external pipe (22), intended to receive a temperature sensor.   17. A method of manufacturing a housing, according to any one of claims 1 to 16, characterized in that it consists in forming in one piece, by molding thermoplastic material, a housing (1) further comprising an opening (6) laterally, then to be made by molding a thermoplastic material insert (7), to introduce a regulating member (3) having two valve body (4,14) in the housing (1), overmoulding the surfaces of the insert (7) intended to come into contact with the bearing surfaces of the inner wall of the casing body (1) and the end opening (10) forming a valve seat or a flapper valve for the second valve body (14), and then mounting said insert (7) in the housing body (2) (1).