FR3015610A1 - MOBILE HOUSING FOR A FLUID CIRCUIT VALVE - Google Patents

Abstract

The invention relates to a mobile plug for a fluid circuit valve, in particular for a motor vehicle, the plug having a contact face (5) for closing one or more fluid flow orifices, provided opening at a wall of an internal cavity of the valve, by a displacement of the contact face (5) in a direction of displacement, said contact face (5) being provided with deformations (2) configured to reduce the contact area of the contact face (5) with the wall of the valve, the deformations (2) being arranged on the contact face (5) so that a line (3) parallel to the direction of movement and belonging to the face of contact (5) always passes through at least one deformation (2).

Description

Mobile bushel for a fluid circuit valve. The present invention relates to a movable plug for a fluid circuit valve, particularly a motor vehicle. It also relates to a fluid circuit valve provided with such a movable plug. Control valves are known comprising a valve body having a bottom wall into which an axial orifice opens and a side wall into which at least two lateral orifices open. The axial orifice constitutes an inlet channel for the fluid, while the lateral orifices constitute outlet channels for the fluid. This type of control valve finds particular application in motor vehicle thermal engine cooling circuits. In this case, the axial orifice, forming a fluid inlet, is connected to a cooling fluid inlet coming from the heat engine, while the three lateral orifices, forming a fluid outlet, are connected in parallel to three branches of the circuit. This circuit comprises for example a first branch which contains an engine cooling radiator, a second branch for cooling various organs, and a third branch which contains a heater for heating the passenger compartment.

The valve body delimits a housing of revolution for a plug making own regulating member to rotate about an axis of rotation and to take different angular positions. The plug has the function of closing the lateral orifices, in order to prevent the circulation of the fluid and to control the passage of the fluid through the orifices. It is pressed internally against the side wall of the valve body to ensure a seal. Thus, the distribution of the fluid through the output channels is controlled according to the angular position taken by the adjustment member. The plug thus has a contact face with the side wall, this face moving against the side wall when the plug changes orientation. To avoid a large frictional force, the contact face is provided with deformations, for example notches concave in the thickness of the plug, which limit the surface actually in contact with the side wall and provide a lubricating effect through an accumulation fluid inside. Thus the sliding of the contact face against the side wall of the valve is facilitated and allows the use of a less powerful engine, which therefore has a smaller footprint.

Surprisingly and in the context of the present invention, it has been found that these notches also have the function of preventing fouling of the valve, in particular between the plug and the side wall, whereas such fouling generates a premature wear. Indeed, they capture the particles that fit between the two elements, then guide them to one of the outlets to evacuate them. Without this evacuation phenomenon, the particles remain blocked and can go as far as to cause an abrasion effect of the side wall, affecting the sealing of the valve. However, in current devices, not all particles can be captured by the notches of the contact face. Indeed, there are areas where the particles do not encounter notches. The invention therefore aims at improving the evacuation of particles and consequently avoiding fouling and wear of the plug. For this, the invention relates to a movable plug for a fluid circuit valve, in particular for a motor vehicle. the plug having a fluid contact face, provided opening at a wall of an internal cavity of the valve, for closing one or more circulation openings by a displacement of the contact face in a direction of displacement , said contact face being provided with deformations configured to reduce the contact area of the contact face with the wall of the valve, the deformations being arranged on the contact face so that a straight line parallel to the direction of displacement and belonging to the contact face always passes through at least one deformation. Thus, if a particle appears between the plug and the side face of the valve, it always ends up experiencing a deformation when the plug is moved over its entire angular stroke, regardless of where it is. The deformation makes it possible to capture the particle and to guide it to one of the outlet orifices of the valve in order to evacuate it. As a result, the valve will not become clogged by causing, for example, blockage of the plug or abrasion of the side face of the valve.

According to various embodiments of the invention, which may be taken together or separately: the plug comprises a cylindrical sleeve, the cylindrical sleeve being provided with an internal face extending around an internal volume of said sleeve; cylindrical sleeve has a circular cross section provided with an angular opening, - the cross section of the sleeve is at an angle of at least 180 °, preferably 270 °, - the plug comprises a spring adapted to move rid of the edges of the cylindrical sleeve bordering the angular opening; the deformations are arranged in such a way that at least one of said deformations is on an angular path of the cylindrical sleeve over an entire height of said sleeve, and is intended to pass in front of at least one of said circulation orifices; of the valve, - deformations of which arranged in staggered, - the deformations are circular, - the deformations are notches, - the face of conta and the plug comprises zones without deformations, the plug is made from a single material, the plug comprises a PTFE material. The invention also relates to a motor vehicle valve comprising such a movable plug. The invention will be better understood in the light of the following description which is given for information only and which is not intended to limit it, accompanied by the accompanying drawings: FIG. 1 schematically illustrating a perspective view of a control valve, of the three-way type, according to the invention, - Figure 2 schematically illustrating a cross-sectional view of a valve comprising a plug according to the invention, - the figure 3 illustrating in elevation view, a movable bushel according to the invention. Figures 1 and 2 show a control valve 10 which includes a cylindrical body 12 defining an interior cavity of the valve. Said inner cavity is here limited by a bottom wall 14 and by a cylindrical side wall 16 of axis X-X '. In the bottom wall 14 opens an axial orifice 18 defined by a pipe. In the cylindrical side wall 16 open three lateral orifices 20, 22 and 24 delimited by three respective tubes. In the example, the axial orifice 18 constitutes a fluid inlet, while the three lateral orifices 20, 22 and 24 constitute valve outputs. It is therefore a four-way valve with an inlet channel and three outlet channels. The outlet pipes 20, 22 and 24 open radially into the wall 16. The number of lateral orifices and corresponding radial outlets may of course vary.

In another variant, the valve body is solid and said inner cavity is defined by a housing formed in the body of the valve, in particular by machining. Here again, the valve may comprise an inlet opening axially into said internal cavity and one or more lateral outlets, in particular radial outlets, communicating with outlet ducts formed in the body of the valve. Inside the valve body 12, in particular inside said internal cavity, is housed a rotating member 26, also called a hub, which is designed as a generally cylindrical element and which is extended here by a rod 28. This rod 28 passes through a central opening that includes a lid 30 of circular shape. The rotating member 26 is rotated about an axis XX 'by an actuator 36 shown schematically in FIG. 1. It may be, for example, a geared motor consisting of an electric motor coupled to a gear reducer. , the position of which is controlled by means of a copy of the position of a sensor, to bring the rotating member 26 into a multiplicity of different positions. Alternatively, other types of actuators may be used, for example stepper motors or brushless motors.

The rotating member 26 is connected to a movable plug having the shape of an angular portion of cylindrical envelope integral in rotation with the rotating member, for example by means of a finger not shown in the figures. Said plug is adapted to come into sealing contact with the internal face of the side wall 16. The plug comprises for example a cylindrical sleeve 42 open at an angle, in particular made of PTFE material.

In other words, said sleeve comprises an angular opening 7. It is understood that, depending on the angular position of the plug, one or more outlets 20, 22 and 24 of the valve 10 can be opened or closed. Combined with the plug profile, such a valve 10 allows a multiplicity of control laws, depending on the desired applications, including control laws comprising a zero flow position. The cylindrical sleeve 42 is provided with an inner face extending around an interior volume. The cylindrical sleeve 42 here has an open circular section, making an angle of at least 180 °, or even 270 °. The sleeve comprises two edges 44, 46 on either side of the opening 7. The cylindrical sleeve 42 may further comprise a spring, not shown in this figure, to mutually separate the edges 44, 46 bordering the opening 7 , in order to ensure sufficient force to maintain said ridges 44, 46 spaced apart and the seal between the sleeve 42 and the side wall 16. The spring is, for example, a rod formed of a spring-effect material, for example made of spring steel. It is made in the form of a wire comprising for example a U-bend connecting two branches, which are applied against the edges 44, 46 of the sealing segment. The two edges 44, 46 constitute two edges delimiting respectively two parallel grooves and facing each other to receive the two branches of the spring member. The cylindrical sleeve 42 is thus arranged to radially press the plug against the side wall 16 to ensure a seal as shown by the radial arrows P. Thus, the plug can seal selectively, and in a sealed manner, the lateral orifices 20, 22 and 24, depending on the angular position of the adjusting member 26.

As can be seen in Figure 3, the sleeve 42 is limited in the upper part by an edge 48 in the form of a circular arc and, in the lower part, by an edge 50 also in an arc. It is limited laterally by two parallel edges which constitute the two edges bordering the opening mentioned above. A window may be provided in the sleeve to provide a passage to one of the outlets in certain positions of the bushel. Alternatively, the sleeve 42 comprises a window, not shown in the figures, allowing the passage of fluid through the plug, in order to circulate the fluid in an outlet 20, 22, 24 when the plug is in a defined position. , which allows for example the closing of another outlet orifice 20, 22, 24. As shown in Figures 2 and 3, the cylindrical sleeve 42 has a contact face with the side wall of the inner cavity of the valve , the contact face 5 for closing the or the circulation orifices 20, 22, 24 by a displacement of the cylindrical sleeve 42, in a direction of displacement, here by a rotation about the axis XX 'as already mentioned more high.

The contact face 5 is further provided with deformations 2 making it possible to reduce the contact area of the contact face 5 with the inner wall 12 of the valve, and thus to reduce friction when the cylindrical sleeve 42 changes its orientation. in the valve 10. For this purpose, the deformations 2 are, for example, notches concave in the thickness of the cylindrical sleeve 42, in particular notches in the form of spherical caps formed in the hollow material of the plug. The deformations 2 are disposed on the contact face 5 so that a straight line 3 parallel to the direction of displacement and belonging to the contact face 5 always passes through at least one deformation 2. In other words, at least one deformation 2 is located on an angular path of the cylindrical sleeve 42 over the entire height h of said cylindrical sleeve 42. Thus, when a particle is inserted between the sleeve and the wall 12 of the valve 10, it inevitably encounters a deformation 2 inside. from which she is trapped. This deformation 2 passes in front of at least one of the circulation orifices 20, 22, 24 of the valve 10 when the sleeve is moved. The deformation 2 thus guides the particle to this orifice 20, 22, 24 in order to evacuate it. This arrangement of the deformations 2 prevents clogging and blocking of the valve 10. The cylindrical sleeve 42 comprises a multitude of deformations 2 on the contact face 5, to reduce friction and to facilitate the capture of the particles. Nevertheless, the contact face 5 may also advantageously comprise areas without deformations 6 to ensure sealing by avoiding leaks step by step by the deformations 2. The zones without notches 6 are for example disposed between zones intended to close the gaps. outlet ports 20, 22, 24 and the edges of the cylindrical sleeve 42, preferably at least 5 mm between the two.

According to a preferred embodiment, the deformations 2 are arranged in staggered rows, that is to say a deformation 2 is in the center of a square, whose four corners are also occupied by deformations 2. The dimensions of the square are chosen according to the diameter of the deformations 2, so that a straight line 3 parallel to the direction of movement of the cylindrical sleeve 42 meets a deformation 2 regardless of the position of this line 3 on the square. For this, the square has a side whose length is at most equal to twice the diameter of a deformation 2. Each deformation or notch 2 has a depth which is greater than the maximum size of a known particle circulating in a circuit engine cooling. Preferably, the notches have for example a diameter of about 3 mm and a depth of 0.5 to 1 mm, the square having therefore a length of 6 mm. The deformations or notches 2 have, for example, a depth representing 10 to 50% of the thickness of the bushel.

Claims (12)

1. A movable valve for a valve (10) fluid circuit, especially for a motor vehicle, the plug having a contact face (5) for closing one or more openings (20, 22, 24) for circulation of the fluid. fluid, provided opening at a wall (16) of an internal cavity of the valve (10), by a displacement of the contact face (5) in a direction of displacement, said contact face (5) being equipped with deformations (2) configured to reduce the contact area of the contact face (5) with the wall (16) of the valve (10), the deformations (2) being arranged on the contact face (5) so that a line (3) parallel to the direction of movement and belonging to the contact face (5) always passes through at least one deformation (2). 2. movable plug according to claim 1, comprising a cylindrical sleeve (42), the cylindrical sleeve (42) being provided with an inner face extending around an inner volume of said sleeve. 3. movable plug according to claim 2, wherein the cylindrical sleeve (42) has a circular cross section, provided with an angular opening (7). The movable plug according to claim 3, wherein the cross section of the sleeve (42) is at least 180 °, preferably 270 °. 5. movable plug according to any one of claims 3 and 4, comprising a spring adapted to move ridges (44, 46) of the cylindrical sleeve (42) bordering the opening (7). A movable plug according to any of claims 2 to 5, wherein the deformations are arranged such that at least one of said deformations (2) is on an angular path of the cylindrical sleeve (42) over a whole length of time. height of said sleeve (42), and is intended to pass in front of at least one of said orifices (20, 22, 24) for circulation of the valve (10). 7. movable bushel according to any one of the preceding claims, wherein the deformations (2) which arranged in staggered rows. 8. movable bushel according to any one of the preceding claims, wherein the deformations (2) are circular. Mobile plug according to any one of the preceding claims, wherein the deformations (2) are notches. 10. movable bushel according to any one of the preceding claims, wherein the contact surface (5) of the plug comprises zones without deformations (2). 11. Mobile bushel according to any one of the preceding claims, wherein a single material is used in its manufacture. 12. A motor vehicle valve (10) comprising a movable plug as specified in any one of the preceding claims.