CS251383B1 - Solenoid valve with two independent electromagnetic circuits for double actuation of pneumatic valve part - Google Patents

Abstract

The invention relates to a solenoid valve with a pneumatic control of the pneumatic part through a pair of switching devices. The device is designed so that a non-magnetic material bearing is provided on the fixed core of the first coil with a second bearing and a conical hole, on the side of which, facing the fixed core, there is a thirteenth centering recess and on the far side thereof, facing the second bearing and a conical hole, there is a fourteenth centering recess. In the end of the bearing of the non-magnetic material there is a through cylindrical hole in which a second rod is mounted, the front plate of which is in front of the front plate of the first rod.

Description

BACKGROUND OF THE INVENTION The present invention relates to a solenoid valve having a wire-independent solenoid circuit for dual actuation of a pneumatic valve stem, wherein electromagnetic actuators are prevented by electromagnetic circuits.

Until now, the solenoid valves for dual actuations have been designed by pneumatic valve assemblies such that the first and second coils of both the first and second electrical circuits have been placed on the stationary core. The coils were flux components of one electromagnetic circuit.

The disadvantage of this arrangement was the tandem electromagnetic coupling through the coils. Consequences of the ductal connection led to the conplicane control of the electromagnetic valve control. It was necessary to use semiconductor diodes to avoid influencing the other circuits connected by the coil into which the electrical pulse was induced by the influence of the coupling. Another disadvantage of the daddy coil coupling was the prolongation of the solenoid valve functional times due to a short circuit being either in the winding of the coils, no one affected by a short circuit in the circuit attached to the coil.

These disadvantages are eliminated by a solenoid valve and by two independent solenoid circuits for dual actuation of the pneumatic part of the valve, in which the electromagnetic coupling between the electro-magnetic circuits according to the invention is avoided, characterized in that a non-magnetic liner with a gaming baldness facing the immovable gaming core with a thirteenth centering shoulder, and a lower baldness facing a second tapered insert having a fourteenth centering slope.

There is a cylindrical bore through the cylindrical axis of the non-magnetic material insert, in which a second rod is located, the upper front support surface of which is below the lower front support plate of the first rod.

The advantage of this solution is to avoid influencing of individual electro-magnetic circuits soldered together. The electrical pulse from one coil is not induced by the other coil. An intercoil short in the coil or a short circuit in the solder circuit will not affect the functional times of the remaining coil and the valve has not lost its functional time for all reasons. Furthermore, this solution reduces the influence of shape deviations of the components on the function of the assembly and ensures good controllability of the solenoid valve assembly.

An example of a practical embodiment of the present invention is shown in the drawing, in which a cross-section of an oloctronagnotic valve with two independent circuits is shown.

The solenoid valve is comprised of a flat square wolf 6 which extends in a parallel axis through the cylindrical bore and internal thread. The second male threaded tubular sleeve 23 is screwed inwardly and is secured in the square wolf 4 by a flattening nut 6. Furthermore, the sheet metal square caps 4 have holes for clamping bolts 4 whose longitudinal aces are reversible with the axis of symmetry of the solenoid valve.

These openings are located near the apexes of the planar square of the outline of the sheet metal wolf. On the underside of the sheet metal lid 6 there is a first insert S1 and a tapered bore 54. On the south side of the upper surface S1, on which the tapered bore diameter is larger, there is a second centering shoulder 25 and on the lower surface 53 there is a third centering shoulder 26.

A first cylindrical movable core 6 with a central bore 68 is inserted in the first tapered bore 54. In front of the first insert 23 β tapered bore 54 is a first tubular sheath 1 provided with a fourth centering shoulder 28 at its upper end and a seventh centering shoulder 29 at its lower end. In the first tubular casing 1, a first coil 8 in the form of a hollow thick-walled cylinder is inserted with the leads led out to the first terminal block 22 located on the outer surface of the first tubular casing.

In the central cavity 56 of the first coil 8, a first stationary core 2 is inserted, on which the playing flange 26 is a fifth cantilever seat 21 and the flanges 52 and a recess 52 have a recess 52 and a central centering 33. In the lower part of the first ace bore 66 of the first stationary core 2, the first tubular sleeve 10 and the first rod 6, fixed and first rolled by the movable core 6, are cut by the cylindrical shaft 2.

An aluminum alloy shaft 12 is inserted in front of the first tube X of the first coil B and the first stationary cores 2. On her game braid 50 facing the stationary core 2, a thirteenth centering shoulder 34. On her bottom braid 51 facing the second insert 13t through the tapered bore 60 is a fourteenth centering shoulder 35.

In the axis of the aluminum alloy insert 12 there is a through cylindrical bore 32 in which a second rod 14 is provided, which has a lower frontal epplate of sheet metal 39. In front of the alu alloy 12, the second insert 13 is a tapered bore 60. Draws on the game plaque 21, on which the second cone bore 60 is punched into the center hole 60 and has a central fit £ 2.

Now, the second insert 13 and the tapered bore 60 have a central centering shoulder. In the second tapered bore 60, the second cylindrical movable core 15 with the central bore 69 is crimped. In front of the second taper 13 about the tapered bore 60 is a second tubular sheath 16 provided with a central shoulder at the rock end.

At the end of the second tubular sheath 16 there is a second aperture 63 for the windings of the winding of the second coil 17. A second tubular sheath 17 is inserted into the second tubular sheath 17 and the outlets disengaged from the second terminal block 21. .

A second stationary core 19 is inserted in the second central hollows 64 of the second coil IX and the inner longitudinal cavity 47 results in a second annular bore 2. The pneumatic channel 48 extends through the inner longitudinal cavity 47. The second stationary core 52 has four openings on the circumference and threads for tightening ireubs.

These holes are not shown in the figure and the brightness at the abvad of the second stationary core 19. On the upper bead 65 of the flange of the second stationary core 19 is the eleventh centering esazon 48. At the bottom of the second and bore 67 of the second stationary core 12, the tubular sleeves 18 and the second mounting rod 14 are shaken on the second rolled core 15 by a cylindrical nut 1 and a notch.

In the inner longitudinal cavity 47 there are pneumatic valve components 20 and a compression spring 46. The pneumatic valve is a compression spring 46 which displaces the rods 46, 48 and the cylindrical movable cores 6, 15 and the cylindrical nuts 21 in the play position to the nut. 2 of the first movable core 2 abuts the second tubular sleeves 23.

The lower end plate 39 of the second rod 14 ee supports the components 20 of the pneumatic valve. The game body epoxy plate 30 of the second rod 14 abuts the lower front support plate 11 of the first rod. Upon application of the electrical inpula to the second coil 17, the second cylindrical movable cores 15 act by the immediate second rod 14 on the pneumatic valve component 20 and the valve opens the through pnaunatic channel 48.

The pulse spring 46 moves the second rod 14 with the second cylindrical movable core 15 to the upper position, and the valve closes the pneumatic passageway 48. When the electrical pulse is applied to the first coil 8, the first movable core 2 acts by the first rod 5 of its lower front strut plate. on the second rod 14 and further on the pneumatic valve components 20 and the valve opens through the pneumatic channel 48.

After the electrical pulse in the first coil 8 has been canceled under the influence of the compression spring 6, both the second rod 14 and the second cylindrical movable core 15 return the flow of the first rod 8 and the first cylindrical movable core 6 to the upper position.

Due to the insert 12 ee, the magnetic flux excited by the first coil 8 closes the magnetic circuit formed by the first immovable core 6, the first tubular linen 6 with the first insert 27 through the tapered bore 54. , a second tubular beach 16 and a second insert 13 with a tapered bore 60.

Claims (1)

A solenoid valve with two independent electromagnetic circuits for dual control of the pneumatic part of the valve, wherein electromagnetic coupling between the electromagnetic circuits is prevented, comprising a flat square cap having, on the one hand, a cylindrical bore with internal thread in the symmetry; external thread threaded in the flat square lid with a lock nut and several holes for tightening bolts whose longitudinal axis is parallel to the axis of symmetry of the solenoid valve, which are located near the tops of the square square of the flat square lid bend, a shoulder, which further comprises a first tapered hole insert, on whose root surface on which the tapered-bore diameter is larger, the second centering shoulder o on the work surface is t a third centering esazone, wherein a first cylindrical central core bore is inserted in the first tapered bore, further comprising a first tubular plunger provided with a fourth centering at the upper end, a central centering at the lower end, and a first " a first hollow thick-walled cylindrical coil is inserted into the first tubular sheath with leads led to a first terminal block disposed on the outer surface of the first tubular sheath, wherein the first stationary cores in the center cavity of the first coil are lukewarm; the centering shoulder and the flange bottom face on the circumference of the recesses of the centering shoulder, wherein at the bottom of the first axial bore of the first stationary Core there is a first tubular sleeve with a first rod mounted on the first cylindrical movable core of a cylinder a notch having a second insert with a second tapered bore having an eighth centering shoulder on the upper face on which the second tapered hole diameter is branched, a ninth centering shoulder on the lower face, wherein a second cylindrical movable core is inserted in the second tapered hole with a central bore, further comprising a second tubular sheet provided with a tenth centered shoulder at the gaming end, a twelve centered shoulder at the lower end, and a second coil winding outlet opening at the bottom end thereof; the second terminal cavity of the second coil is inserted into a second stationary core with an internal longitudinal cavity and a second axial bore, a through pneumatic channel, a plurality of internal threads for the tightening screws located with the circumference of the second stationary core, wherein on the playing surface of the second stationary core flange there is an eleventh centering recess e at the bottom of the second axial bore of the second stationary core is a third tubular sleeve with a second rod mounted on the second cylindrical movable core a notched nut, wherein in the inner longitudinal cavity are pneumatic valve components and a compression spring characterized in that an insert (12) of nomagnetic material is inserted between the upper stationary core (9) of the first coil (8) and the second tapered insert (13) on whose upper face (50) facing the upper stationary core (9) is a thirteenth centering shoulder (34) and on whose lower face (51) facing the second insert (13) by a tapered bore (60) is a fourteenth centering shoulder (35) while in the axis of symmetry of the insert (12 ) of non-magnetic material is a through cylindrical bore (32) in which a second rod (14) is located, the gaming front support plate (30) of which is in front of the dividing front support plate (11) of the first rod (1).