NZ229653A - Electrically operated valve; single diaphragm as valve and seat - Google Patents

Abstract

The solenoid provides flow switching to at least two ways and comprises a body with a recess from which the fluid arrival and departure conduits open and a single membrane, serving the role of shutter to these positioned by means of a rocker which closes it against one or the other of the conduits in e to the alteration of the position of a slider which moves in the valve body under the action of an electromagnet. The membrane (23) is made up of an external flexible part (36) and a central part (37) in which is embedded the rocker (24), which has a rod perpendicular to the plane of the membrane and engaging in a recess (12) in the slider (3). The slider is pivoted on an axis (21) traversing the rocker.

Description

22 96 53 Priority Date(s):....

Complete Specification Filed: aass- (su 2T, 9 \ lol- ft-JttHW- Publication Date: P.O. Journal, No: ... As^r.W.......

NEW ZEALAND PATENTS ACT. 1953 No.: Date: COMPLETE SPECIFICATION SWITCHING MICROELECTROVALVE HAVING A SINGLE DIAPHRAGM X/We, A8X, a French Limited Company of 52/56, rue Kleber, 92300 Levallois, France hereby declare the invention for which I we pray that a patent may be granted to^jae/us, and the method by which it is to be performed, to be particularly described in and by the following statement: - - 1 -Followed by page la 22 9 65 This invention relates to a switching micro-electrovalve intended to be used with any fluid and more particularly to agressive or contaminated liquids. It more precisely relates to a microelectrovalve comprising a rocking lever and a sole diaphragm.

There are known microelectrovalves involving two flexible diaphragms made of plastics material and able to be deformed by means of an electromagnet on purpose to close certain apertures and open other ones. However the latter may have some drawbacks because it is difficult to set said microvalves due to the multiplicity of the constitutive members thereof. French Patent 87 00209 discloses a microelectrovalve intended to obviate these drawbacks in that said switching microelectrovalve having at least two ways comprises a valve body having a recess, to which are"connected inlet and outlet fluid ducts and a movable member acting as a closure member for any one of said ducts and actuated by means of the core of an electromagnet. In said microelectrovalve the movable member is a diaphragm having an oriented deformation, which is applied by means of a rocking lever onto any one of the ducts to be closed and the rocking lever is moved from any of its balance positions corresponding to respectively any one of both closure positions for the diaphragm by means of a control member which is moved along the valve body by means of the core of an electromagnet.

Advantageously this control member consists of a sleeve sliding into the valve body, said control sleeve being located within a well passing through the valve body along the longitudinal axis thereof. One of its ends clears an open-end outlet in said well and its central portion comprises an aperture intended to engage 22 9 6 5 a rod integral with the rocking lever. FR A 87 000209 describes a preferred embodiment wherein the rocking lever is shaped as a top" having one advantageously tapered surface which bears by means of spring means on 5 a corresponding surface of the closure diaphragm on purpose to apply the latter onto at least one aperture while setting free at least an adjacent aperture. The diaphragm thus connected to the motion of the rocking lever is able to tilt about an axle, a ball which is 10 located on a seat of the valve body on purpose to be centered on the diaphragm being provided to this end.

As to limit the number of constitutive members, on purpose to render easier the mounting thereof, it has been contemplated to directly mold the duct bracket 15 together with its ball and also to form the diaphragm integral with its rocking lever.

The development of the searche's made in this field by the Applicant ha*s lead the latter to made an electrovalve in accordance with that disclosed in French 20 Patent 87 00209 but which is improved as regards the miniaturization, the build up simplicity and the operation accuracy thereof. ;Accordingly the invention relates to a switching micro-electrovalve having at least two ways, comprising 25 a valve body connected by a recess thereof to outlet and inlet fluid ducts for the fluid, and a single diaphragm acting as a closure member for said ducts and which is actuated by means of an electromagnet core through a rocking lever which applies said diaphragm onto either 30 one of said ducts with respect to the position of a sliding sleeve moving along within the valve body by means of an electromagnet core. ;According to the invention, the diaphragm comprises a flexible outer position ana a central 35 portion overmolaed on the rocking lever a portion of ;22 96 5 ;which which is rod-shaped and at right angles to the diaphragm plan, is intended to engage a recess provided in the sliding sleeve, tHe diaphragm-rocking lever assembly being linked to an axle passing through the 5 rocking lever ana bearing on wings integral with the valve body, the recess of the movable sleeve having a slight depth lesser than the sleeve thickness and radially oriented with respect to the axis of the valve body. ;10 Advantageously the diaphragm is pinched between the edges of an aperture provided within a side of the valve body and a profiled bracket which closes said aperture, said side being generally shaped in cross-section as a widely opened V, having two V - shaped 15 longitudinal flanges which surround the aperture. ;Other advantages and particular features of the invention will become apparent on reading the following description of one -embodiment illustrated in the accompanying drawings in which: ;20 Fig. 1 is a diagrammatic cross-sectionnal view of the micro-electrovalve; ;Fig. 2 is a cross-sectionnal view cf the valve body ; ;Fig. 3 is a plan view of the lower side of the 25 valve body; ;Fig. 4 is an enlarged cross-sectionnal view of the bracket secured to the valve body; ;Fig. 5 is an enlarged plan view of the top surface of the bracket illustrated in Fig. 4; ;30 Figs. 6 and 7 are respectively plan and cross- ;sectionnal views of the diaphragm with its rocking lever. ;The micro-electrovalve shown in the drawing is generally shaped as a rectangular box made of plastics 35 material, which forms the valve body 1. A cylindrical ;22 9 6 ;well 2 in which is located a control sleeve has been bored along the longitudinal axis AA' of said valve body 1. A cylindrical end 4 of said sleeve, which slide into the well 2 may flush with the outler thereof. A chamber 5 is formed between the well bottom and the other end of the sleeve 3. This chamber 6 communicates with the external portion of the valve body 1 through an aperture engaging the movable core 7 of an electromagnet (not shown in the drawings) . At one end of said core, is 10 provided a core head shaped as a prong 8 for gripping a profiled jaw 5 formed at the end of the sleeve 3. A spring 10 is further located between the bottom of chamber 6 ana the sleeve. In the latter is formed a shallow recess whose depth is less than the thickness of 15 the sleeve and which is radially oriented with respect to the axis AA'. ;A side 34 of the valve body 1 having the general shape of a widely opened V is further bored with an elongated aperture 32 at right angles to the sleeve 20 aperture 12. As more precisely shown in Figs. 2 and 3, this elongated aperture 32 is itself centered into a generally oval cup whose hollow portion is obtained by moulding into said site 34 of said valve body. The cup 33 and the aperture 32 are centered on the tip of the V. 25 Accordingly, on each side of the longitudinal edges of the hollow cap 33 are provided two longitudinal V-shaped flanges which hang over and surround the hollow cup 33 ana the aperture 32 along the longitudinal edge thereof. The edges of cup 33 are so shaped as to form a seat for 30 the tight diagphragm 23 which is pinched between the valve body and a closure bracket 16 which is screwed on the latter. The diaphragm forms with the closure bracket 16 a chamber having a slight volume 17. Three small ducts 18, 19 and 20 for supplying or discharging fluid 35 are bored through bracket 16. Each of said ducts clears ;22 9 6 5; ;1 into said chamber 17 two ducts 18 and 19 are couDled to ;* O chamber 17 at a projecting crowned area on the bottom of ^ bracket 16. The third duct "20 is directly connected to the bottom of said bracket. The shape and profile of 5 bracket 16 are more clearly shown in Figs. 4 ana 5. There is shown an upper V-shaped surface area which corresponds to side 34 in the valve body. The three ducts 18, 2 9 and 2 0 are connected to the bottom of hollow elongated cup 41 which can also engage the 10 diaphragm 33. Side ribs 42 are also provided on each side portion of bracket 16 and oppositely located with respect to hollow cup 41. Said ribs are intended to cooperate with corresponding recesses provided in the side portion 34 of valve body as to enable the bracket 15 to be perfectly located on said valve body and to axially maintain the axle 21 at proper location.

The diaphragm 23 has a peculiar structure which is better illustrated in- Figs 6 and 7. It consists of a flexible external portion 36 which is very soft, 20 slightly profiled as a V in a fashion similar to the profile of the valve and having an oval shape whose size corresponds to that of the cup 33, and of a central elongated portion 37 within which is sunk a rocking lever 24 one lower surface 25 of which matches the 25 diaphragm profile whereas the upper portion thereof which is rod-shaped and at right angles to the diaphragm plane is engaged through aperture 32 and enters recess 12 in sleeve 3. The rocking lever 24 is provided with a O through tranverse bore 38. Said bore is elongated as to avoid the diaphragm 23 to be translated. As diaphragm 23 is pinched between the valve body 1 and the bracket 16, bore 38 is in alignment with apertures 39 provided at the V-profiled top of longitudinal flanges of the valve body, which form side wings hanging over the hollow cup 35 33. An axle 21 passing through both apertures 39 and 22 96 53 bore 38 in the rocking lever ensures the location of the diaphragm and constitutes the pivoting axis thereof. It should be noted that said" axle is located along the diaphragm side which is not in contact with the fluid. 5 As shown in Fig. 1, the stem 27 of the rocking lever is so located as to be slightly inclined inwards recess 12 and thus kept in abutment against the recess edge. This inclination gives rise to an inclination of diaphragm 23 whose soft position 37 is then applied in 10 closed relationship against the duct aperture 19, while duct 18 is freely connected to chamber. This position is the "rest" one of the electrovalve, the electromagnet being then not energized. When biased by means of spring 10, sleeve 3 is kept, as shown in the drawing, at a 15 location apart rightwards, the end thereof flushing with the opening of well 2. The fluid supplied in chamber 17 via duct 20 thus freely flows towards duct 18.

As the electromagnet is energized, core 7 exerts a pulling effect at the end 5 of sleeve 3 by means of its 20 gripping head 8, as to counter-bias the pressure applied by spring 10. Then sleeve 3 is moved leftwards from its position shown in Fig. 1. During said motion, the edge of recess 12 has contacted the edge of rod 27 and driven © the rocking lever 24 to pivot. The diaphragm 23 has then been inclined while pivoting about its axle 21 to a position reverse with respect to the previous one, wherein it is disengaged from conduct for being applied onto duct 18. The fluid passage is then established between duct 20 and duct 19. Due to the projection of 30 the ends of ducts 19, 20 with respect to the cup bottom, the part 37 of diaphragm 23 is able to be urged on its seat as to avoid any wrong tightness due to contaminants.

As the electromagnet is no longer energized, 35 sleeve 3 is biased again by means of spring 10 to the O 22 9 65 initial position shown in Fig. 1 ana the spring pressure, via the rocking lever, ensures a locking in this position. It should be"noted that the user is also able to handle himself the sleeve while pushing on the 5 end 4 which is flushing with a side of the electrovalve, i.e. the valve may be manually actuated in case of failure of the electromagnet.

Since the chamber 17 between the diaphragm 23 and the bracket 16 has a small size, the dead volume of 10 fluid is slight that facilitates the cleaning. Further the single diaphragm not only acts as a closure disk on its seat but also ensures a perfect tightness as regards the outer medium and the inner well 2 in which slides the sleeve 3. This tightness is ensured for the 15 pressurized liquid fluids as well as for the gaseous fluids under high or low pressures, perhaps under vacuum. The bulking of the valve" body 1 is reduced without limiting in this matter the cross-section of the fluid passage way through ducts 18, 19 and 20. 20 This swithing microvalve may be rigidly mounted in series in a restricted room, the ducts located on the same side being easy to be implanted. The microvalves are advantageously made of materials able to withstand agressive fluids and may be preferentially used in 25 medical analysis devices and also in food plants and the like. 8 229653

Claims (7)

WHAT WE CLAIM IS:.

1) A switching microelectrovalve having at least two ways, comprising a valve body connected by a recess thereof to inlet and outlet fluid ducts, and a single 5 diaphragm acting as a closure member for said ducts, actuated by a core of an electromagnet via a rocking lever which applies said diaphragm onto either one of said ducts according to the position of a sliding sleeve moving within the valve body by means of 10 the electromagnet core, characterized in that the diaphragm comprises an outer flexible part and a central part in which the rocking lever is embedded, one part of which formed as a rod at right angles to the diaphragm plan being intended to be located in a recess of the 15 sleeve, and in that the diaphragm - rocking lever assembly is linked to an axle passing through the rocking lever and bearing on wings integral with the valve body.

2) A microelectrovalve according to claim 1, 20 characterized in that the sleeve recess is shallow, the depth thereof being less than the sleeve thickness, and is axially oriented with respect to an axis of the valve body.

3) A microelectrovalve according to claim 1, 25 comprising a diaphragm pinched between the edges of an aperture provided in a side portion of the valve body and a profiled bracket which closes said aperture, characterized in that said side portion has a profile shaped as a widely opened V having two 30 longitudinal flanges which are also V - shaped and surround the aperture.

4) A microelectrovalve according to claim 1 or 3, characterized in that the aperture is centered in a cup having a substantially oval shape and ''made hollow by 9 229653 moulding in the side portion of the valve body, said cup acting as a seat for the tight diaphragm.

5) A microelectrovalve according to claim 3, characterized in that side ribs are provided on both 5 sides of the bracket so as to cooperate with corresponding recesses in the side portion of the valve body.

6) A microelectrovalve according to claim 1, characterized in that the axle passes through a portion 10 having an elongate cross-section and transversely provided in the rocking lever.

7) A switching microelectrovalve substantially as hereinbefore described with reference to the accompanying drawings. DATED THIS30OAY OF A. J. Mcy *