ITMO960032A1 - MICRO SOLENOID VALVE MICRO SOLENOID VALVE - Google Patents

Description

DESCRIPTION

attached to a patent application for INDUSTRIAL INVENTION entitled;

MICRO SOLENOID VALVE.

The present invention relates to a micro-solenoid valve.

The known art comprises a plurality of micro-solenoid valves of different types, which however have some drawbacks in common.

In the first place, cleaning the internal parts of known micro-solenoid valves is very problematic. In particular, it is difficult to remove the inevitable deposits of dirt and impurities that form in the ducts of the fluid-mechanical part of the micro-solenoid valves, to the point that the latter, after a relatively short period of use, are practically useless; it can be said, with other words, that they are of the "disposable" type.

Secondly, the known micro solenoid valves, for their proper functioning, must be built with extreme precision. In particular, the stroke of the moving part (anchor) of the control electromagnet of the micro-solenoid valve must be very small and must also be included within very narrow tolerance limits. As is known, this involves high manufacturing and assembly costs of the various parts that make up the micro solenoid valve.

The main object of the present invention is to obviate the aforesaid limitations and drawbacks of the known art, by making available a micro-solenoid valve which can be inspected and cleaned in a practical and immediate way.

Another object of the present invention is to provide a micro-solenoid valve which can be constructed with extreme precision and, at the same time, in a simple and economical way.

The present invention advantageously gives rise to a micro-solenoid valve which can be manufactured in compliance with precise and restricted dimensional tolerances.

An advantage of the present invention is that of making available a micro solenoid valve having an extremely reduced overall dimensions as prescribed by international standards. The micro solenoid valve in question also has a relatively low energy consumption.

Another advantage is represented by the fact that the fluid-mechanical part of the micro-solenoid valve can be easily disassembled and separated from the electrical part, thus making it easier to check or replace these parts.

Furthermore, the electrical part, in particular the electrical windings of the excitation coil of the electromagnet, is advantageously insulated from the fluid-mechanical part of the micro solenoid valve.

These aims and advantages and others besides are all achieved by the micro-solenoid valve in question, as it is characterized by the claims.

Further characteristics and advantages of the present invention will become clearer from the following detailed description of a preferred embodiment of the invention, illustrated by way of example, but not of limitation, in the attached drawings, in which:

Figure 1 shows a section in vertical elevation of the micro-solenoid valve in question taken according to the plane I-I of the following Figure 2;

Figure 2 shows a section along the line II-II of Figure 1.

With reference to the aforementioned figures, 1 indicates as a whole a pneumatic micro-solenoid valve, of the type with a solenoid with return spring, for directional control 3-2 (3-way, 2 positions), comprising an electrical part 2 and a fluid part. mechanics 3.

The electrical part 2 essentially consists of an electromagnet encapsulated in an external casing 4, made of thermoplastic material overmolded on the electromagnet, open on one side, with a bottom 5 and with side walls 6, one of which has a thickening 7, from which the electrical connections 8 for actuating the solenoid and an earth connection 46 protrude and are integral with them.

The casing 4 contains and covers in contact with a cage 9, made of ferromagnetic material (e.g. soft iron), consisting of a C-shaped bracket, devoid of windings, having the function of yoke of the electromagnet, i.e. of a portion intended to complete the magnetic circuit of the electromagnet itself.

The cage 9 comprises a central vertical body 10, to which the electrical connections 8, the earth connection 46 and a mechanical coupling 11 are solidly connected, and also comprises two parallel and opposite arms, in the form of rectangular plates integral in a single unit. piece with the central body 10 and perpendicular thereto. These arms are: a first upper arm 12, perforated in the center, in contact with the bottom 5 of the casing 4; and a second lower arm 13, located in correspondence with the opening of the casing 4, also perforated in the center with a hole coaxial with that of the first arm 12.

The cage 9 contains within itself an excitation coil 14 in which the turns of an electric winding cover a tubular support 15, coaxial with the holes on the arms of the cage 9, at the opposite ends of which two flanged heads 16, one upper and the other lower, each of which has a flat surface in contact with a respective arm of the cage 9.

In the central cavity of the tubular support 15 of the electric winding there is a fixed magnetic core 17, which has a polar end 18 connected with forcing inside the hole made on the first arm 12 of the cage 9. Thanks to the aforementioned fixed connection for forcing between the magnetic core 17 and the cage 9 - both components of the magnetic circuit of the electromagnet - the construction of the micro solenoid valve 1 is considerably simplified, as will be better explained below. The polar end 18 externally has a surface creped by a plurality of circumferential fins 19, coupled with interference to the relative hole, exploiting the deformability of which the connection by forcing is facilitated. Furthermore, the polar end 18 must not touch the bottom 5 of the casing 4.

A short-circuit ring 20, preferably made of copper, is embedded in a recess of the magnetic core 17 arranged at the free end opposite to the forced one in the cage 9.

21 indicates a ferromagnetic material core which is axially movable within the cavity of the tubular support 15 and which represents the anchor of the electromagnet. The movable core or anchor 21 internally has a hollow seat in which a return spring 22 operating between the fixed magnetic core 17 and the movable core 21 is housed.

The number 23 indicates a polar expansion of the cage 9, made of magnetic material, in the shape of a ring that coaxially surrounds the movable core 21, shown in correspondence with the hole on the second lower arm 13 of the cage 9 and shaped to have the volute distribution of the magnetic field, that is, so as to cause an enlargement of the magnetic circuit in correspondence with the air gap so as to increase its section and decrease its reluctance. In this way the micro solenoid valve 1 works effectively even with low powers.

What has been described up to now refers to the electrical part 2 of the micro solenoid valve 1. The fluid-mechanical part 3 comprises a valve body made in two pieces, for example in thermoplastic polyester (PBT), in which a first piece 24 of the valve body has three connections which are: a first connection 25 with the supply pressure arrival duct; a second connection 26 with a utilization duct; a third connection 27 with the drain (or with subsequent users).

The first piece 24 of the valve body, which is made integral with the second lower arm 13 of the cage 9 by means of two fixing screws 28 which are inserted in corresponding holes made on the second arm 13 itself, has an internal recess, preferably cylindrical , inside which a second piece 29 of the valve body is inserted, removably coupled to the first piece 24 by means of two opposing flexible connecting and centering elements or mustaches 30, each of which has at its free end a male element 31 hooked to interlocking in a corresponding female element 32 obtained laterally on the first piece 24 of the valve body. The interlocking coupling between the two pieces of the valve body guarantees their correct reciprocal positioning and also allows for easy and immediate engagement and disengagement.

The screw fastening system between the first piece 24 of the valve body and the cage 9 has a substantially symmetrical conformation with respect to the section plane II-II, so that the valve body and the electrical part 2 can be mounted on each other. the other in one of the following two ways, optionally: either as illustrated in the attached figures or, alternatively, with the electrical part 2 rotated by 180 ° with respect to the illustrated configuration. This choice facilitates the installation of the micro solenoid valve 1.

The second piece 29 of the valve body has a duct 33 internally which, at one lower end, leads to the first connection 25 (power supply) and, at the opposite upper end, leads to a port 34 facing coaxially, at a short distance, to a end port 35 of the third connection 27 (exhaust).

In the space between the two ports 34 and 35 mentioned above, a distribution slider-shutter 36 is axially movable, operating on command between two extreme positions, one lower and the other upper, in which it selectively obstructs one or the other. the other of the two ports 34 and 35. 37 indicates a return spring of the distribution slider-shutter 36 which tends to push the slider-shutter 36 upwards against the port 35 with a force less than that with which the return spring 22 acts on the movable core 21.

In the attached figures, the slider-shutter 36 obstructs the port 34 communicating with the first connection 25, being pressed downwards, against the second part 29 of the valve body, by the return spring 22 of the mobile core 21 of the electromagnet. , through the core itself and a strut 38.

The movable strut 38 for connection between the movable core 21 of the electromagnet and the distribution slider-shutter 36 is shaped so as to have two appendages 39, parallel, axially extended, passing through respective openings on the valve body 24 and intended for interacting in contact, on one side, with the anchor 21 of the electromagnet and, on the opposite side, with the slider-shutter 36. The strut 38 also has, in a single piece with the two arms 39, an annular portion 40 containment and guide of the slider-shutter 36.

The external surface of the annular portion 40 of the strut 38 is slidably coupled, in an axial direction, with the internal walls of the cylindrical recess of the first part 24 of the valve body and has a cross section shaped so as to define ports, not visible in the sections of the attached figures, comprised between the annular portion 40 and the first piece 24, through which the passage of fluid is allowed in order to put the third discharge connection 27 in communication with the second connection 26 of the user.

On the first part 24 of the valve body is mounted a button 41 with return spring 42 for the manual control of the micro solenoid valve 1.

With 43 are indicated two static sealing gaskets, made for example of nitrile rubber (NBR), which seal off the electric winding of the coil 14 from the fluid-mechanical part 3 of the micro-solenoid valve 1.

Furthermore, two static gaskets 44, operating between the first and second parts of the valve body, are suitable for sealing off the first connection 25 from the outside and from the second connection 26.

Two through holes 45 are provided on the first piece 24 of the valve body to allow the micro solenoid valve 1 to be screwed onto an external structure.

The upper side of the first piece 24 of the fluid-mechanical part 3 of the micro solenoid valve 1 has a flat surface which mates in contact with a corresponding flat surface defined on the lower side of the second arm 13, lower, of the cage 9. The coupling between the two the aforesaid conjugated flat surfaces is made by the fixing screws 28 which keep the surfaces themselves pressed against each other.

The operation of the micro solenoid valve 1 is as follows.

With the excitation coil 14 deactivated, the configuration of the micro-solenoid valve 1 is that shown in the attached figures: the return spring 22 pushes the mobile core 21 downwards and consequently also pushes the connection strut 38 and the slider-shutter 36, consequently. whereby the first supply connection 25 is closed and the other two connections 263⁄4 27 are communicating with each other. The microvalve is therefore of the normally closed type. By activating the excitation coil 14, the movable core 21 is drawn upwards in opposition to the return spring 22 and abuts against the lower side of the fixed magnetic core 17, whereby the return spring 37 of the slider-shutter 36, no longer overcome by the return spring 22 of the movable core 21, pushes the slider-shutter 36 upwards which moves to the extreme upper position in which it obstructs the third discharge connection 27, also putting the other two connections in communication 25 and 26.

For the correct operation of the micro solenoid valve 1, it is essential that the stroke of the mobile core 21 is greater, even if slightly, than the stroke of the slider-shutter 36. The detachment, i.e. the difference between the two aforementioned strokes, must in any case be limited. , for example of the order of about a tenth of a millimeter.

The coupling plane between the two aforementioned flat surfaces conjugate and match each other - i.e. the surfaces of the lower side of the second arm 13 of the cage 9 and of the upper side of the first part 24 of the valve body - is taken as a point reference, origin or zero of the quotas, to be matched for the definition of the main dimensions of the micro solenoid valve 1.

The various elements of the aforementioned micro-solenoid valve 1 are built out of work and assembled later. During the assembly phase, first the excitation coil 14 is inserted into the C-shaped cage 9 and the outer casing 4 is made by overmoulding, after which the magnetic core 17 is introduced into the central cavity of the coil 14 and the cold of the corrugated polar end 18 of the magnetic core 17 inside the corresponding hole on the cage 9. The forcing operation is particularly delicate, since it determines the positioning of the magnetic core 17 with respect to the cage 9, on which positioning depends the extent of the stroke of the mobile core 21 of the electromagnet and, ultimately, the correct operation of the micro-solenoid valve 1. This reciprocal positioning must respect extremely small tolerances. For this reason, forcing takes place using, to insert the two elements one inside the other, the mechanical action of a calibrated punch operating on the magnetic core 17 and bearing a ground reference surface which, when forcing, abuts against a corresponding abutment surface, consisting of the external, lower side, of the second arm 13 of the C-shaped cage 9 on which the fluid-mechanical part of the micro-solenoid valve 1 is intended to be mounted. In this way the abutment surface on the second arm 13 is distant from the plane of the magnetic core 17 opposite the polar end 18 by a predeterminable height with restricted tolerances. Thanks to the aforementioned reciprocal positioning and its precision, the stroke of the electromagnet anchor 21, with assembled micro solenoid valve 1, is also determined within narrow tolerances, ensuring the correct operation of the micro solenoid valve itself. After forcing, the anchor 21 and the corresponding return spring 22 are inserted into the central cavity of the coil 14, after which the polar expansion 23 (with the respective gaskets 43) is inserted in the form of a ring in a special annular seat on the electromagnet.

The electrical part 2 and the fluid-mechanical part are mounted on each other by screwing the first piece 24 of the valve body to the second lower arm 13 of the cage 9, with the advantageous possibility of arranging the electrical part 2 in two different positions, at choice, one rotated 180 ° with respect to the other.

It is possible, in a practical and immediate way, to disengage and remove the second piece 29 of the valve body from the first, exploiting the elasticity of the flexible connection mustaches 30 and thus allowing the inspection and cleaning of the fluid-mechanical part 3 of the solenoid valve 1; it is also possible, by simply disengaging the fixing screws 28, to remove, for inspection or replacement, the electrical part 2 from the first piece 24 of the valve body. The complete reassembly of the micro solenoid valve 1 is obviously allowed with simple operations.

The micro-solenoid valve 1 can be advantageously operated by means of electronic controls of a known type, so as to regulate with extreme precision the position and the speed of movement of the slider-shutter 36. In this regard, it has been found experimentally that the micro-solenoid valve made according to the present invention it has extremely short response times to the actuation (approximately 2 milliseconds).

It is possible to modify the above valve in a completely obvious way, which is of the 3/2 normally closed (NC) type, to transform it into a 3/2 normally open (NO) valve, or with universal function (NC / NO). ).

The constructive example described above refers to a pneumatic solenoid valve; with similar construction methods it is possible to realize hydraulic solenoid valves.

Obviously, numerous other modifications of a practical-applicative nature of the construction details can be applied to the invention without however departing from the scope of protection of the inventive idea claimed below.

Claims (9)

CLAIMS 1. Micro solenoid valve (1), of the type comprising an electrical part (2) and a fluid-mechanical part (3), characterized in that the fluid-mechanical part (3) in turn comprises a valve body (24, 29 ) made in two separable pieces, respectively (24) and (29), in which: connections (25, 26, 27) with external ducts are associated with a first piece (24) of the valve body, all of which are connected to a recess of the first piece (24) in which a second piece (29) is located of the valve body; at least one flexible coupling element (30) is associated with the second piece (29) of the valve body, bearing at one end a male element (31) removably engaged with a corresponding female element (32) on the first piece (24), for which the second piece (29) is engaged on the first piece (24) with the possibility of disengagement and extraction from the recess of the first piece (24). 2. Micro-solenoid valve according to claim 1, characterized in that it comprises two said flexible coupling elements (30), opposite each other. 3. Micro solenoid valve according to claim 1 or 2, characterized in that: the valve body (24, 29) is removably fixed to the electrical part (2) by means of at least one fixing screw (28) which is inserted into a corresponding hole made on said electrical part (2); the valve body (24, 29) has at least one flat surface which mates with a corresponding flat abutment surface arranged on the electrical part (2), the two aforementioned conjugated flat surfaces being kept pressed against each other by the said fixing screw (28). 4. Micro solenoid valve according to any one of the preceding claims, characterized in that said electrical part (2) comprises a magnetic core (17) provided with a polar end (18) coupled by forcing, by means of a mechanical connection with interference, in a hole arranged on a cage (9) made of ferromagnetic material, the magnetic core (17) and the cage (9) giving rise to a magnetic circuit cooperating with an excitation coil (14) inside the cage (9) to generate a field magnetic suitable to activate a mobile core (21). 5. Micro solenoid valve according to claim 4, characterized in that said cage (9) is C-shaped and has two opposite and parallel arms, respectively (12) and (13), corresponding to a first arm (12) being the said hole is prepared in which the polar end (18) of the magnetic core is forced 6. Micro solenoid valve according to claim 5, characterized in that it comprises an annular pole (23) expansion, located in correspondence with a hole provided on the second arm (13), external to the mobile core (21) and operatively associated with it. 7. Micro solenoid valve according to any one of claims 4 to 6, characterized in that the polar end (18) of the magnetic core (17) has an external surface creped by a plurality of fins (19) that can be deformed by the effect of the aforementioned forcing. 8. Micro solenoid valve according to any one of the preceding claims, characterized in that inside the second piece (29) of the valve body there is a conduit (33) which has a first end communicating with a first (25) of the aforementioned connections of the first piece (24) and a second end, opposite to the first, communicating with two other connections (26, 27) and on which a cursor-distributor (36) of the solenoid valve (1), the cursor-distributor (36) is intended to operate being axially movable and capable of selectively assuming, upon command, two positions, in which in the first position it closes an end port of the duct (33) and in the second position it closes an end port of one of the other two connections, second (26) or third (27), of the first piece (24). 9. Micro solenoid valve according to the preceding claims and according to what is described and illustrated with reference to the figures of the accompanying drawings and for the aforementioned purposes.