FR3045769A1 - SOLENOID - Google Patents

Abstract

The invention relates to a solenoid valve (100), for example a purge valve for evacuation of vapors, comprising means for guiding the displacement of a shutter valve (142) from an outlet orifice between its first and second positions, these means comprising at least one longitudinally extending face (127) and in contact with which an edge (154) of the shutter member (142) is intended to be slidably guided. According to the invention, said at least one face comprises an inclined surface portion (136b, 158b) oblique with respect to the longitudinal axis (127) and which is arranged vis-a-vis, radially, from the edge the shutter member (142) when it is in its second position.

Description

The invention relates to a solenoid valve, such as in particular a purge solenoid valve for evacuation of vapors, and to a motor and a motor vehicle comprising such a solenoid valve.

Such a solenoid valve comprises: a housing provided with a fluid inlet and a fluid outlet, an electromagnet winding mounted in said housing, a seat of a shutter member secured to the housing; outlet orifice, a shutter member made of magnetic material located opposite one end of a magnetic core of said winding and movable along a longitudinal axis of said core between a first open position in which the shutter member is removed from the seat and a second position for closing said outlet orifice in which the shutter member bears on the seat; means for guiding the shutter valve moving between its first and second positions, these means comprising at least one face; extending longitudinally and in contact with which an edge of the shutter member is intended to be slidably guided.

Such solenoid valves may find a preferred, although not exclusive, application in gasoline vapor recovery devices that accumulate in fuel tanks, above the liquid phase, intended to accompany a spark ignition engine. controlled, particularly in motor vehicles, to prevent the discharge of said vapors directly into the atmosphere.

This type of solenoid valve is designed to perform several hundred million cycles of opening / opening. Thus, this component must satisfy a very high reliability criterion. However, it has been observed that the repeated friction of the outer periphery or edge radially (with respect to the axis of the longitudinal core) of the shutter member against the displacement guide faces led to the formation of a concave recess. in said guide faces so as to form hook portions limiting the sliding of the valve from its open position to its closed position, which greatly affects the proper functioning of the solenoid valve.

It is therefore necessary to find a solenoid valve design whose reliability at the opening is not affected by the friction of the shutter member on the guide means. To this end, a solenoid valve as mentioned in the preamble is characterized, being arranged according to the invention, in that the at least one guide face comprises a surface portion inclined obliquely to the longitudinal axis, this face being arranged vis-a-vis, in the radial direction, the edge of the shutter member when it is in its second position.

The formation of a surface portion obliquely inclined with respect to the longitudinal axis makes it possible to ensure optimal guiding in operation of the edge of the shutter member in contact with the guiding face since the risks of forming hook parts as in the prior art are eliminated. In operation, the shutter member rubs on the guide face or faces as in the prior art, which leads to wear the guide surfaces but induces no formation of hook portions.

According to another characteristic of the invention, said at least one face comprises a first face substantially parallel to the longitudinal axis which is extended by a second face formed by said obliquely inclined surface portion.

In a particular embodiment of the invention, in the second position of the shutter member, the peripheral edge of the shutter member is arranged partially vis-à-vis, in the radial direction, of the first surface and partially facing to the second surface.

According to yet another characteristic of the invention, the winder comprises a central hub carrying, at at least one end opposite the seat, an annular flange from which extend, towards the seat, a plurality of distributed studs. around the shutter member, each stud comprising one of said sliding guide faces of the shutter member.

According to the invention, at least first pads carry the seat at their opposite ends to the flange, second pads having a free end formed vis-à-vis the seat in the longitudinal direction. The invention also relates to a motor vehicle engine, comprising at least one solenoid valve as described above. It also still a motor vehicle comprising such an engine. The invention will be better understood and other details, features and advantages of the invention will become apparent on reading the following description given by way of non-limiting example with reference to the accompanying drawings, in which: FIG. 1 is a view schematic section of a solenoid valve of a known type; FIG. 2 is an illustration of the wear of a guide pad of the solenoid valve of FIG. 1; - Figure 3 is a schematic perspective view of the upper end of a winding of a solenoid valve according to a first embodiment of the invention; FIG. 4 is a schematic view from above of the upper end of the bobbin of FIG. 3 according to a second embodiment of the invention; FIG. 5 is a diagrammatic side view of the zone delimited in dotted line in FIG. 4; - Figure 6 is an illustration of a shutter member of a solenoid valve in the open position; - Figure 7 is an illustration of a shutter member of a solenoid valve in the closed position; - Figure 8 is a schematic view of a guiding means for moving a shutter member, the guide means being unworn; - Figure 9 is a schematic view of a guide means for moving a shutter member, the guide means being worn.

Referring first to FIG. 1, a purge solenoid valve 10 for vapor evacuation according to the prior art is shown in a closed position.

Such solenoid valve 10 comprises a housing 12, in particular made of rigid plastic material, formed of a lower housing body 14 and an upper housing body or cover 16. The lower housing body 14 forms a vessel whose bottom has an inlet port 18 (extended by an inlet duct) for the admission of vapors and the upper casing body 16 is provided with a vapor outlet (extended by an outlet duct).

A circuit 22 of magnetic material is disposed in the tank 14 and, being in particular folded in the general shape of U, surrounds a bobbin 24 of electromagnet.

The bobbin 24 comprises a hub 26, with a longitudinal axis 27, which may be of molded plastic material in one piece, for example, with a first end flange or upper flange 28 and a second end flange or flange A generally tubular magnetic core 32 is disposed within the hub 26. An electric coil 34 is fixedly mounted on the hub 26 of the coil 24.

The upper flange 28 includes a radially inner end connected to the hub 26 and a radially outer end which is clamped between the lower casing body 14 and the upper casing body 16.

A support member 36, advantageously formed of several studs projecting vertically and integral with the upper flange 28, supports a stop plate 38 which forms a seat of a shutter member 42 and which is provided with an axial opening 44 and which comprises , extending vertically upward, a tubular extension 46 engaged coaxially within a tubular portion 48 underlying the outlet port 20 of the upper housing body 16. A toric seal 50 is disposed between the outer surface of the tubular portion 46 and the inner surface of the tubular portion 48 to isolate the interior of the solenoid valve from the outlet port 20.

Finally, a metal shutter member 42 is located facing the upper end of the magnetic core 32, between the latter and the seat 38 and is resiliently pushed towards the seat 38 by a spring 52 helically coaxial with the core 32. When the coil 34 is not powered (zero current in the winding, electromagnet not energized), the spring 52 keeps the shutter member 42 in contact with the seat 38. The solenoid valve 10 is normally closed. The shutter member 42 can thus take a first open position of the vapor flow in the outlet orifice 20 and a second closed position (Figure 1) of said vapor flow.

The support pads 36 of the seat 38 of the shutter member 42 also form guide means for moving the shutter member 42 between its first and second positions. More specifically, the peripheral edge 54 of the shutter member 42 comes into contact with a face 56 facing the stud 36. The solenoid valve may also comprise second studs 58, different from the support pads or first pads 36 , which are formed projecting on the upper flange 28 and which, unlike second pads 36 comprise a free end opposite the upper flange 28.

Such a second stud 58 is shown in FIG. 2. As can be seen, the second stud 58 comprises a guiding face 60 facing the peripheral edge 54 of the shutter member 42, this face 60 comprising a recess 62 concave curved shape which is the result of repeated friction of the peripheral edge 54 of the shutter member 42 against the guide face 60. It is understood that the concave curved shape of the guide face 60 leads to form an end portion in FIG. hook 64 which can block the displacement shutter member.

The elements already described above will not be described again but each have a reference number increased by a hundred.

To prevent blocking of the shutter member 42 of the solenoid valve 100 according to the invention and thus restore reliable operation of the solenoid valve, it is thus proposed to form on the first 136 and second 158 pads of the inclined faces 136b, 156b obliquely to the longitudinal axis 127 of displacement of the shutter member 142, these faces 136b, 156b being arranged vis-a-vis, in the radial direction, the edge 154 of the shutter member 142 when the latter is in its second position (Figures 3, 5 and 7).

In the embodiments of the invention, the upper flange 128 of the winding comprises four first pads 136 for sliding guide the shutter member 142 and two second pads 158 for guiding. As can be seen in FIG. 4, the first four studs 136 are arranged in a square pattern centered on the longitudinal axis 127 and each comprise a base 166 with a substantially ovoidal section which carries a finger 168. These fingers 168 are intended to be welded in recesses (not shown) of the seat of the shutter member 142. The second pads 158 are arranged opposite one another with respect to the longitudinal axis 127.

In FIG. 4, it can be seen that the shutter member 142 is formed by a plate having two lobes 170 diametrically opposite to the longitudinal axis 127 and each having a convex rounded peripheral face 172 in a plane perpendicular to the axis 127 (Figure 4). These faces 172 are connected to one another by two faces 174 each having two concave recesses 176 in which the first studs 136 are intended to provide a guide valve shutter 142. The second pads 158 provide sliding guidance of the lobes 170 of the shutter member 142 (Figure 4). The peripheral faces 172 and 174 of the shutter member 142 are also oriented substantially parallel to the longitudinal axis 127 as would be visible along a cutting plane passing through the longitudinal axis (Figure 5).

Each of the pads 136, 158 comprises a sliding guide face formed of a first face 136a, 158a substantially parallel to the longitudinal axis 127 and extending from the upper flange 128 to a second face 136b, 158b forming the obliquely inclined surface portion with respect to the longitudinal axis 127. The oblique inclined face 158b is thus formed at the free end portion with respect to the second studs 158. The second inclined face 136a of each first stud 136 is formed at the end portion of the egg-shaped base 166 which carries a finger 168.

As can be seen in FIG. 5, the inclined face 136b of the first stud 136 extends along the axis 127 for a greater distance than the inclined face 158b of the second stud 158. More particularly, it can be seen that in FIG. second position of the shutter member 142 (Figures 5 and 7), the peripheral faces 172, 174 of the peripheral edge 154 of the shutter member 142 are arranged partially vis-à-vis, in the radial direction, the first surface 136a , 158a of the first 136 and second 158 pads and partially vis-à-vis the second surface 136b, 158b of the first 136 and second 158 pads.

As shown in FIGS. 6 and 7, the normal 178 at each of the inclined faces 136b, 158b of the first 136 and second 158 pads is oriented towards the shutter member 142 and towards the longitudinal axis 127.

In FIG. 8, a second pad 158 is shown in the non-used state and in FIG. 9 is shown the same second pad 158 after several opening / closing movement cycles of the shutter member 142. It is clear that, the forming a face 136b, 158b inclined obliquely, avoids the formation of a hook portion 64 as shown in Figure 2.

Note that the first embodiment of FIG. 3 differs from that of FIGS. 4 and 5 by the absence of obliquely inclined face on the bases of the first studs 136.

Finally, it is desirable to form, in priority, inclined faces 136b, 158b on the pads 136, 158 subjected to the greatest friction of the peripheral edge 154 of the shutter member 142. Indeed, the magnetic field inducing a displacement of the shutter member 142 may not be axisymmetric about longitudinal axis 127 so that wear may be greater on some pads 136, 158 which are most likely to see forming a hook portion.

Claims (7)

A solenoid valve (100), for example purge for vapor evacuation, comprising: - a housing (112) having a fluid inlet (118) and an outlet port (120) of fluid, - an electromagnet bobbin (126) mounted in said housing (112), - a seat (138) of a shutter member (142) integral with the outlet port (120), - a shutter member (142) ) of magnetic material located opposite one end of a magnetic core (136) of said bobbin (126) and displaceable along a longitudinal axis (127) of said core (30) between a first open position in which the body shutter (142) is spaced from the seat (138) and a second closed position of said outlet orifice (120) in which the shutter member (142) bears on the seat (138), - valve guide means shutter (142) moving between its first and second positions, these means comprising at least one extending face udinalement (127) and in contact with which an edge (154) of the shutter member (142) is intended to be slidably guided, characterized in that said at least one face comprises an inclined surface portion (136b, 158b) obliquely to the longitudinal axis (127) and which is arranged vis-à-vis, in the radial direction, the edge of the shutter member (142) when it is in its second position. 2. solenoid valve (100) according to claim 1, characterized in that said at least one face comprises a first face (136a, 158a) substantially parallel to the longitudinal axis (127) which is extended by a second face formed by said portion obliquely inclined surface (136b, 158b). 3. Solenoid valve according to claim 2, characterized in that in the second position of the shutter member (142), the peripheral edge (154) of the shutter member (142) is arranged partially vis-à-vis, radial direction, of the first surface (136a, 158a) and partially vis-à-vis the second surface (136b, 158b). 4. Solenoid valve according to one of claims 1 to 3, characterized in that the bobbin (126) comprises a hub (132) carrying, at least one end facing the seat (138), a flange annular (128) from which extend, towards the seat (138), a plurality of studs (136, 158) distributed around the shutter member (142), each stud (136, 158) comprising one of said guide faces sliding of the shutter member. 5. Solenoid valve according to claim 4, characterized in that at least first pads (136) carry the seat (138) at their opposite ends to the flange (128), second pads (158) having a free end formed into a screw with respect to the seat (138), in longitudinal direction (127). Motor vehicle engine, characterized in that it comprises at least one solenoid valve (100) according to one of the preceding claims. 7. Motor vehicle, characterized in that it comprises an engine according to claim 6.