FI90281B - Coupling microelectric valve having a single membrane - 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

1 90281

This invention relates to a coupling microelectric valve for use with any medium, and in particular with aggressive or contaminated liquids. More specifically, it relates to a microelectric valve comprising a rocker arm and a single diaphragm.

Microelectric valves are known which include two flexible membranes made of a plastic material and which can be deformed by means of an electromagnet with the intention of closing certain openings and opening others. However, the latter have some disadvantages because it is difficult to assemble said microvalves due to the multiplicity of their components. FR-A-2 609 518 discloses a microelectric valve for overcoming these disadvantages, said switching microelectric valve having at least two paths comprising a valve body with a cavity to which the control inlet and outlet lines of the medium si-20 and a movable a part which acts as a sealing means for any of the wires and which is activated by the core of the electromagnet. In said microelectric valve, the movable means is a membrane with directional deformation pressed on the line to be closed by means of the rocker arm and the rocker lever is moved from its equilibrium positions corresponding to one of its two closing positions to the membrane by means of control means moved by the solenoid core.

Preferably, this guide means consists of a sleeve 30 which slides into a valve body, the guide sleeve being placed in a recess which passes through the valve body along its longitudinal axis. One of its ends releases an open outlet from said cavity and its central part comprises an opening for engaging a rod integral with the rocker arm. FR-A-2 609 2 90281 518 describes a preferred embodiment in which the rocker arm is formed as an upper part with one preferably conical surface supported by a spring means on a respective surface of the barrier film to press the latter onto at least one opening while releasing at least an adjacent opening. The diaphragm thus coupled to the movement of the rocker arm is capable of tilting relative to the axis, the ball positioned on the seat of the valve body being intended to be centered on the diaphragm, with the head fitted here.

In order to limit the number of structural parts in order to make its installation easier, it is intended to directly cast the wire holder together with its ball and also to form the membrane integral with its rocker arm.

15 The applicant's product development in this field has led the applicant to make an electric valve in accordance with FR patent 2,609,518, but which has been improved in terms of miniaturization, simplicity of construction and accuracy of operation.

Accordingly, the invention relates to a switching microelectric valve which can be switched to at least two positions and which comprises a valve body connected via the cavity to the inlet and outlet medium lines and a single membrane acting as a closing means for said lines activated by an electromagnetic valve. a rivet core through a rocker arm which presses said membrane on either line according to the position of the sleeve in the sliding valve body moving longitudinally inside the valve body by means of an electromagnetic core 30, wherein said membrane and the rocker arm form an arrangement, the membrane comprising an outer resilient part a part embedded in the rocker arm, one part of which is formed as a rod perpendicular to the plane of the film, being intended to be placed in the recess of said sleeve.

li 3 9Π281

Compared to said FR patent and DE patent 3,503,357, U.S. Pat. Nos. 3,067,764 and 4,251,053 and GB patent 1,226,481, the microelectric film according to the invention is characterized in that said film-rocker arm articulated joint is articulated. and rests on vanes integral with the valve body.

Preferably, the diaphragm is pinched between the edges of the opening formed in the side of the valve body and a shaped support 10 which closes said opening, which side is generally shaped into a wide open cross-sectional shape with two V-shaped longitudinal flanges surrounding the opening.

Other advantages and specific features of the invention will become apparent upon reading the following description of one embodiment, illustrated in the accompanying drawings, in which Figure 1 is a schematic cross-sectional view of a microelectric valve; Figure 2 is a cross-sectional view of the valve body; Fig. 3 is a plan view of the underside of the valve body; Fig. 4 is an enlarged cross-sectional view of a bracket attached to the valve body; Fig. 5 is an enlarged plan view of the top surface of the support shown in Fig. 4, and Figs. 6 and 7 are plan and cross-sectional views, respectively, of the film with the rocker arms.

The microelectric valve shown in the drawing is generally shaped as a rectangular box made of plastic material and forms a valve body 1. A cylindrical recess 2 in which a guide sleeve is placed is drilled along the longitudinal axis AA 'of the valve body 1. The cylindrical end 4 of said sleeve, which sleeve slides into the recess 2, may be flush with its outlet. A chamber is formed between the bottom of the cavity and the other end 35 of the sleeve 3. This chamber 6 communicates with the outer part of the valve body 1 through an opening surrounding the movable core 7 of the electromagnet 4 90281 (not shown in the drawings). At the other end of said core is formed a spike 8-shaped core law for gripping a shaped jaw 5 formed at the end of the sleeve 3. The spring 10 is further 5 placed between the bottom of the chamber 6 and the sleeve. A shallow recess 12 is formed in the latter, the depth of which is less than the thickness of the sleeve and which is radially oriented with respect to the axis AA '.

The side 34 of the valve body 1, which has a generally wide open V-shape, is further provided with a drilled elongate opening 32 at right angles to the sleeve recess 12. As shown in more detail in Figures 2 and 3, this elongate opening 32 is itself centered on a generally oval cover 15, the hollow part of which is provided by casting in said position 34 of the valve body. The cover 33 and the opening 32 are centered on the tip of V. Accordingly, on each side of the longitudinal edges of the hollow cover 33, two longitudinal V-shaped flanges are formed which hang over the hollow cover 33 and surround it and the opening 32 along its longitudinal edge. The edges of the cover 33 are shaped so as to form a seat for a sealing membrane 23 sandwiched between the valve body and the closure bracket 16, which bracket is wound on the latter. The membrane, together with the closure support 16, forms a chamber with a small volume 17. Three small lines 18, 19 and 20 for the supply or discharge of medium are drilled through the support 16. Each of the wires opens into said chamber 17, two of the wires 18 and 19 being connected to the chamber 17 in a protruding raised area of the bottom of the support 16. The third wire 20 is connected directly to the bottom of said bracket. The shape and profile of the bracket 16 are shown in more detail in Figures 4 and 5. They show an upper V-shaped surface area corresponding to side 34 of the valve body 35. Three lines 18, 29 and 20 are connected to the hollow li 5 90281 elongate cover 41 to a base to which the membrane 33 may also adhere. The side rows 42 are also fitted to each side part of the support 16 and are located opposite the hollow cover 41. Said ribs are intended to co-operate with corresponding grooves formed in the side portion 34 of the valve body so that the bracket can be accurately positioned on the valve body and the shaft 21 is kept in the correct axial position.

The diaphragm 23 has a special structure better illustrated in Figures 6 and 7. It consists of a flexible outer part 36 which is very soft, lightly shaped into a V-shape in the same way as the valve profile and has an oval shape corresponding to the size of the cover 33 size and a central elongate portion 37 embedded in a rocker arm 24, the lower surface 25 of which mates with the profile of the film, while its upper portion, which is rod-like and at right angles to the plane of the film, is passed through the opening 32 and protrudes into the recess 12 in the sleeve 3. The rocker arm 24 is provided with a through-going transverse bore 38. Said bore is elongate to avoid turning the membrane 23. Since the diaphragm 23 is pressed between the valve body 1 and the support 16, the bore 38 is aligned with the openings 39 formed in the V-shaped upper part of the longitudinal flanges of the valve body, which flanges form side wings extending over the hollow cover 33. A shaft 21 passing through both the openings 39 and the bore 38 in the rocker arm secures the position of the diaphragm and forms its articulated shaft. It should be noted that said shaft is located along the side of the film which is not in contact with the medium.

As shown in Fig. 1, the arm 27 of the rocker arm is positioned so as to be slightly inclined in the recess 12 of the sleeve 3 and thus held supported against the edge of the recess. This tilt causes the film 23 to tilt, the soft part 37 of which then rests tightly against the opening 19 of the line 6 90281 while the line 18 is freely connected to the chamber. This position is the "rest position" of the solenoid valve when the solenoid is de-energized. Prestressed by means of a spring 10, the sleeve 3 is held, as shown in the drawing 5, in a forward-spaced position with its end flush with the two openings in the cavity. The medium fed into the chamber 17 via the line 20 thus flows freely towards the line 18.

When the current is connected to the electromagnet, the core 7 applies a traction effect to the end 5 of the sleeve 3 by means of its gripping head 8, whereby the pressure caused by the spring 10 is biased. In this case, the sleeve 10 moves to the left from its position shown in Fig. 1. During said movement, the edge of the cavity 12 has contacted the edge of the rod 27 and caused the kei-15 knob 24 to tilt. The membrane 23 is then tilted while being pivoted relative to its axis 21 to a position inverted from the previous one, whereby it detaches from the wire in order to be pressed onto the wire 18. The passage of the medium is then allowed between the wires 20 and 19. Due to the protrusion of the ends of the wires 19, 20 with respect to the bottom of the lid, the part 37 of the film 23 can be forced into its seat, thus avoiding any false tightness due to soiling.

When the electromagnet is no longer live, the sleeve 25 3 is prestressed again by means of the spring 10 to its initial position shown in Fig. 1, and the pressure of the spring through the rocker arm ensures locking in this position. It should be noted that the user is also able to operate the sleeve himself by pressing the head 4, which is flush with the side of the solenoid valve, i.e. the valve can be manually activated in the event of a failure of the solenoid.

Because the chamber 17 between the membrane 23 and the support 16 is small in size, the dead medium volume is small, which facilitates cleaning. Furthermore, a single membrane 35 not only acts as a closure plate on its seat but also ensured a precise tightness between the outer medium and the inner cavity 2 where the sleeve 3 slides. This stringency is ensured for pressurized liquid media as well as gaseous media with high or low pressure perhaps also in vacuum. The volume of the valve body 1 is reduced without limiting in this respect the cross-section of the medium passage through the lines 18, 19 and 20.

This connecting microvalve can be installed in a fixed confined space, with the 10 lines on the same side being easy to install. Microvalves can be advantageously made of materials that tolerate aggressive media and can be advantageously used in medical analysis equipment and also in nutrient factories and the like.

Claims (6)

8 9 Π 2 81 A switching microelectric valve which can be switched to at least two positions and which comprises a valve body (1) connected via inlet (17) to inlet and outlet medium lines (18, 19, 20) and a single diaphragm (23). ) acting as a closing means for said lines activated by an electromagnet core via a rocker arm (24) which presses said membrane 10 on either line according to the position of the sleeve (3) sliding in the valve body, which moves longitudinally inside the valve body by an electromagnetic core; 23) and the rocker arm (24) form an arrangement, the membrane 15 comprising an outer resilient part (36) and a central part (37) embedded in the rocker arm (24), one part of which is formed as a rod (27) perpendicular to the plane of the membrane. to be placed in the recess (12) of said sleeve (3), characterized in that said 20 the diaphragm-rocker arm arrangement (23, 24) is articulated to a shaft (21) which passes through the rocker arm and rests on vanes (35) integral with the valve body (1). Microelectric valve according to Claim 1, characterized in that the recess (12) in which the rod-like part (27) of the rocker arm is located is shallow, its depth being less than the thickness of the sleeve (3) and axially directed towards the valve body (1). ) with respect to the axis (AA '). A microelectric valve brick according to claim 1, comprising a membrane (23) sandwiched between the edges of an opening formed in the side portion (34) of the valve body and a shaped support plate (16) closing said opening, characterized in that said side portion (34) is a general profile shaped into a broadly open V having two longitudinal flanges (35) that are also V-shaped and surround the opening (32). Il 9 9Π281 A microelectric valve according to claim 3, characterized in that said opening (32) is centered in a cover having a generally oval shape and made hollow by casting into a side part 5 (34) of the valve body, which cover acts as a seat for a tight membrane (23) . Microelectric valve according to Claim 3, characterized in that recesses (35) are formed in the side part (34) of the valve body, which act together with the corresponding side ribs (42) on both sides of the support plate (16). A microelectric valve according to claim 1, characterized in that the shaft passes through a body (38) having an elongate cross-section and arranged transversely to the rocker arm (24). 10 90 2 81