DE1464907A1 - Electromagnetic drive magnet and use of the same as part of an electrovalve - Google Patents

Description

DIPL-ING. LUDEWIG DIPL-PHYS. BUSE 56 WUPPERTAL-BÄRMEN

611
Eldima AG, Siewerdtstrasse 95, Zurich (Switzerland)

Electromagnetic drive magnet and use of the same as part of an electrovalve.

The invention relates to an electromagnetic drive magnet with one with respect to a stationary, of one Excitation winding surrounded magnetic core axially movable magnetic core.

Known drive magnets of this type have the disadvantage that they do not work precisely enough, so that the movable magnetic core does not always assume exactly the same position with one and the same excitation current. The invention is based on the knowledge that that occurred in the previous drive magnets in the axial guide of the movable magnet core Static friction causes these inaccuracies. It has been shown that these inaccuracies can actually be avoided, when according to the invention the movable magnetic core in relation to the fixed magnetic core is guided by at least one ball bearing. "

The invention also relates to the use of this drive magnet as part of an electrovalve. This use is characterized in that the drive magnet has a shaft extending axially through both magnet cores has, at the lower end of which the valve body is provided, and that a part of the shaft is surrounded by a sleeve which is screwed into the fixed magnetic core, and on which two surrounding the shaft, and in opposite directions Meaning on the same acting compression springs support, and that also the upper end of the shaft via an adjusting screw on a traverse of the movable magnetic core

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is based on which traverse to the top of the sleeve is engaged in such a way that upon rotation of the movable magnetic core, the sleeve is entrained in rotation, d and this changes the tension of the two springs in opposite directions.

In the single figure of the drawing, an electric valve is shown in longitudinal section as an embodiment of the invention.

The illustrated solenoid valve has a housing 1 which is provided with an inlet threaded connection 2 and an outlet threaded connection 3. On the valve seat 4 of the valve drawn in its closed position sits the otherwise cylindrical valve body 5 with a conical surface 6. The valve body 5 is located at the lower end of a shaft 7 _S on the upper part of a collar 8 adjoining the valve body 5, the lower end of the egg metallic bellows 9 is sealingly attached. The upper end of the bellows 9 is fastened to a plate Io giochen in the middle, which rests on a sealing ring 11, which in turn is accommodated in a recess in a bushing 12. The socket 12 is screwed into a socket 14 of the housing 1 at 13 and sealed by means of a seal 15. The socket 12 has a stepped flange 16, the upper step 17 of which is gripped under by a loose flange 18, which holds a pot 20 on the socket 12 and thus on the housing 1 by means of screws 19, only one of which is visible.

The belonging to an electromagnetic drive magnet 2L, made of ferromagnetic material, e.g. iron pot 2o contains a magnetic winding 22, the supply conductors 23 of which are passed through a hole 24 in the loose flange 18. Of the Pot 2o has a central core 26 protruding upward from its bottom 25, which is at the top in a pole shoe 27 with a conical Inner surface 28 runs out.

The core 26 is provided with a through hole 29 in which a bushing.3o made of non-ferromagnetic material, e.g. Brass, sits and which has an internal thread 31 at the bottom. .

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A cylindrical sleeve 32 has at the bottom a threaded head 33 which is screwed into the internal thread 31 and on which the upper end of a pretensioned compression spring 34 is supported. The compression spring 34 surrounds the shaft 7, which is through the Sleeve 32 passes through and is supported on a shoulder 35 of this shaft 7. It can be seen that the tension the compression spring 34 strives to the valve body 5 against the To press the inlet pressure of the liquid onto the valve seat 4 and that its preload depends on the position of the threaded head 33 in the Internal thread 31 depends.

To rotate the sleeve 32 and thereby regulate the preload of the compression spring 34 without dismantling the entire solenoid valve, the sleeve is provided at its upper end with two opposing, rectangular cutouts 36 * through which a traverse 37 passes, which bridges a bore 38 of a movable magnetic core 39 and on the latter is attached. It is clear that when the magnetic core 39 is rotated, the cross member 37 entrains the sleeve 32 in rotation, so that the bias of the compression spring 34 corresponds to the pressure of the Valve flowing liquid can be adjusted. The magnetic core 39 is light by one at the upper end of the pot 2o releasably attached cover 4o covered and thus easily accessible even when the valve is in operation. The easy to solve Fastening of the cover 4o to the pot 2o is not shown. For this purpose, for example, one in an annular groove of the pot end A horizontal tension spring made of wire is provided, which weakly holds the cover 4o tight by light radial pressure, when it has been placed on the end of the pot. The cover 4o can optionally also be in two parts. It is enough just that to be able to expose central part of the movable core 39 in order to use a key that fits into the bore 38 to open the outside the sleeve 32 located parts of the traverse 37 to be able to bevel. The magnetic core 39 has a downwardly projecting pole piece 41 with a conical outer surface 42 which is complementary to the conical inner surface 28 of the pole piece 27.

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Between the upper part of the sleeve 32 and the movable magnetic core 39 there is a brass bushing 43 in its bore 38, which is provided with two rings of holes 44 in which balls 45 are arranged, the sleeve 43 forms the cage of a Ball bearing 46, the raceways of which through the outer surface of the Sleeve 32 or the soffit of the bore 38 are formed, on which the balls 45 during the axial movement of the magnetic core 39 unroll.

The upper end of the shaft 7 is at the lower end of an adjusting screw 47 is supported, which is screwed centrally into the cross member 37. The screw 47 is to be adjusted so that, when the valve body 5 rests on the seat 4, there is still a little play between the pole pieces 27 and 41 in order to avoid that the same "stick" to each other in the closed position. At the upper end of the shaft 7 is by means of an in a groove 48 engaging clamping ring 49 supported a sleeve 5o, which in turn serves to support the upper end of a compression spring 51, the lower end of which on a shoulder 52 the sleeve 32 rests. The compression spring 51 strives to the shaft 7 nach.oben to move, so the movable magnetic core 39 from to remove the fixed magnetic core 26 or to lift the valve body 5 off the seat 4. If by turning the sleeve 32 Qewindekopf 33 is screwed up, the bias of the valve body 5 downwardly pressing spring 35 decreases, while the tension of the spring 51 increases.

When the magnet winding 22 is energized, the fixed magnet core 26 pulls the movable magnet core 39 downward. the Springs 35 and 51 are to be set so that when the winding 22 is not excited, the upward forces of the fluid pressure and the spring 51 the downward force of the Exceed spring 35 so that the valve is open. As the excitation current increases, the shaft 7 becomes detached from the movable magnetic core 39 moved progressively downward over the cross-member 37, with each current strength due to the increasing tension of the spring 51 corresponds to a different equilibrium position. If you put the stroke of the; Veritilkörpers in the closing direction as a function of the excitation current represents an approximately linear characteristic curve.

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As a result of the motionlessness caused by the ball bearing 46 the guidance of the magnetic core 39 "or the shaft 7" results in a much more precise manner compared to known electrovalves Compliance with the characteristic. In particular, the work of the valve is very largely independent of the aging effects of temperature influences, on the type of lubrication and also on whether the respective state of equilibrium during a movement of the valve body 5 reached in the closing direction or in the opening direction will. Jerky movements of the valve body 5 also do not occur, in contrast to known valves in which in particular after a long period of standstill, the transition from static friction to sliding friction is characterized by rüekge, which increases the accuracy the valve regulation.

It is clear that the electromagnetic drive magnet 21, in addition to the pot 2o of the winding 22, the shaft 7 and all using the reference numerals 25-52 are to be expected, can also be used differently than as a component an electrovalve, namely whenever it is desired, the movement of an organ 5 by setting a To be able to control Stromes precisely. Of course, numerous variants are possible; but it should only be mentioned that instead of a single ball bearing, several ball bearings can be provided and that the balls 45 do not necessarily must be accommodated in a ball cage 43 which is movable with respect to both magnetic cores 26 and 39.

Where in the present description and in the following claims the terms "above" and "below" are used, this of course assumes that the drive magnet or the Valve is considered in the location of the drawing.

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Claims (9)

PATENT LAWYERS H64907 DIPL-ING. LUDEWIG DIPL-PHYS. BUSE 56 WUPPERTAL-BARMEN 611 Claims /1.) Electromagnetic drive magnet with a referring to a stationary one surrounded by an excitation winding Magnetic core axially movable magnetic core, characterized in that the movable magnetic core (39) with respect to the stationary magnetic core (26) is guided by at least one ball bearing (46). 2. Drive magnet according to claim 1, characterized by an axially extending through both magnetic cores (26, 39) Drive shaft (7) which is partially surrounded by a sleeve (32) which is screwed into the fixed magnetic core (26) is and on the two this shaft (7) surrounding and acting in opposite directions on the same Support compression springs (35,51), and by means of a traverse (37) of the movable magnetic core (39) on which the upper end is located of the shaft (7) is supported via an adjusting screw (47) and which engages with the upper end of the sleeve (32) in this way stands that when the movable magnetic core (39) rotates, the sleeve (32) is entrained in rotation and thereby the Tension of the two springs (35,51) changes in opposite directions. 3. Drive magnet according to claim 2, characterized in that the ball bearing (46) has a cage (43), which in relation on the sleeve (32) and on the movable magnetic core (39) is axially movable, and that the balls held in the cage (45) roll on the outer surface of the sleeve and on the reveal of an axial bore (48) of the movable magnetic core (39). 4. Drive magnet according to claim 2, characterized in that the fixed magnetic core (26) from the bottom (25) of a ferromagnetic, the exciter winding (22) containing the pot (2o) - 7 » 909821/0848 U64907 protrudes upwards and at the top in a pole piece (27) of koniscfterr Inner surface (28) runs out into which a pole piece (41) provided on the movable magnetic core (39) with complementary, conical outer surface (42) protrudes. 5. Drive magnet according to claim 2, characterized in that the movable magnetic core (39) by a cover (4o) is covered, of which at least a part is easily detachable to the central part of the movable magnetic core (39) with the To make traverse (37) accessible. 6. Use of the electromagnetic drive magnet according to claim 1 as part of an electrovalve, characterized characterized in that the drive magnet (21) has a shaft (7) extending axially through both magnet cores (26, 39) has, at the lower end of which the valve body (5) is provided, and that part of the shaft of a sleeve (32), which is screwed into the fixed magnetic core (26), and on which two surrounding the shaft, and in the opposite sense on the same acting compression springs (35 »51) support that also the upper end of the shaft is supported on a traverse (37) of the movable magnetic core (39) via an adjusting screw (47) is which cross member with the upper end of the sleeve (32) is in engagement such that upon rotation of the movable Magnet core (39) the sleeve is driven in rotation, and thereby the tension of the two springs (35,51) in opposite directions changes. 7. Use according to claim 6, characterized in that the lower compression spring (35) is surrounded by a bellows (9), * its lower end on the shaft (7) and its upper end ^ on a plate (lo ) sealing j is attached, which plate (lo) between the drive ^! magnet (21) and a relative to the valve housing (1) sealing seal (11) is arranged. - 8 909821/0848 8. Use according to claim 7 »characterized in that the valve body (5) is substantially cylindrical and in the The closed position rests on a seat (4) provided above the inlet connection (2) of the valve, while the outlet connection (3) is at right angles to the inlet port. 9. Use according to claim 8, characterized in that the valve housing (1) is provided above the inlet connection (2) Has connector (14), in which a bushing (12) is screwed which serves to support a loose flange (18) on which the pot (2o) of the drive magnet (21) is screwed is. 909821/0848