DE2821507A1 - Reduced energy solenoid valve - has two part control enabling use of lower holding current with one coil after switching action with two - Google Patents

Abstract

The solenoid operated valve has the pole section (44) fitted with a special microswitch (54) in a slot mounting to operate against a fixed stop when the valve has switched. The microswitch operates a second mode of operation in which one of the solenoid coils drops out and the remaining coil has sufficient current to hold the valve open. The power drain for the valve is reduced considerably so that the valve housing can be a plastics moulding without any danger of overheating.

Description

Patent attorneys
Dipl. Jr. g. He τι •• Jürgen Müller Dr. r.-r. :. ·· :: O hvmm Ber-endt Dr. -is>;. Bsns Layii

Lucile-Grahn-StraQe 28 D 8; V, undvin 80

Our reference: A 14 165 Lh / fi

Fritz MÜLLER

At the train station

7118 Ingelfinqon-Cricsbach

Electromagnetically operated valve

909847/0253

The invention relates to an electromagnetically actuated valve, in particular a plastic valve, with a housing, a valve seat and a valve piston which can be actuated by the armature of an electromagnet, which two has windings which can be connected in series by means of a switch.

Valves whose valve plates or valve pistons can be actuated or controlled electromagnetically are known. It is It is also known to build up the coils of the electromagnets of such valves, for example, from two windings which are in series are switchable, a winding being energized to switch the valve piston, while to hold the valve piston in a given switching position, the second winding is connected in series to the holding current and thus reduce power consumption.

This saves energy on the one hand and the inherent heat generated by the electromagnet on the other reduced, which is particularly important for plastic valves.

A switch is usually used to connect and disconnect the further winding of the coil of the electromagnet used, which is attached to the housing and is operated with the help of suitable rods when the armature of the Electromagnet has brought the valve piston into its holding position. However, this is constructive and with regard to of the space required for the switch is a very complex design.

The invention is therefore based on the task of designing and arranging a valve of the type mentioned at the outset of the switch for the electromagnet constructively and

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easier to design in terms of space.

According to the invention this is achieved in that the armature of the electromagnet is provided with a recess and the Switch for switching the windings is arranged in this recess and attached to the armature.

The recess can expediently be in the form of a slot at the end of the armature opposite to the actuation side be formed, but it can also lie approximately in the central area of the armature or optionally also in the area of the Be arranged operating side.

Advantageously, the switch as a result of the movement of the armature by the stop of a switch element on a part fixed to the housing switched.

An example embodiment of the invention is Explained on the basis of the single figure of the drawing, which shows, in section, a valve which can be actuated by an electromagnet shows.

In the drawing, a valve 10 is shown with a housing 12, for example made of plastic, and an inlet 14 and a drain 16 has. In the case is a Valve seat 18 is formed, with which a valve disk 20 cooperates, which has an axial continuous channel 22 which, at its end facing away from the valve seat 18, in a valve seat 24 ends with which a valve piston 26 cooperates.

A bushing 28 is screwed onto the valve disk 20 and the inner one is between the bushing 28 and the valve disk 20 Edge of a flexible membrane 30 tightly clamped and held,

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the outer edge of which is tightly clamped and held in the housing 12, which is designed in two parts.

The membrane 30 separates the supply connection 14 from a valve chamber 32, but the latter is connected to the supply connection via an overflow channel 34 which is formed in the housing 12 is connected.

An arm 36 of an angle lever 38 pivotably mounted on a pin 72 is connected in an articulated manner to the valve piston 26, the other arm 40 of which is coupled to the armature 44 of an electromagnet 68.

The arm 40 of the angle lever 38 is turned clockwise by a compression spring, i.e. in the closing direction of the valve piston 26 applied. By contrast, the arm 40 of the angle lever 38 is turned counterclockwise by the armature 44 of the electromagnet, i.e. acted upon in the opening direction of the valve piston 26. The anchor 44 is in the illustrated embodiment provided with a pin 48 which cooperates with a counter pin 50 which is suitably connected to the arm 40 of the angle lever 38 is connected.

The coil 46 of the electromagnet 68, which is unspecified Connections electrical energy can be supplied, consists of two windings, which are not shown in detail are, however, with the help of a switch 54, which is connected to the two windings via a cable 52, are switchable in series.

The armature 44 is at its end opposite the actuation side, i.e. the pin 48, with a recess, in the present case provided with a slot 56 which extends from the free end face 74 of the armature sufficiently

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extends deep to accommodate the microswitch 54.

The slot 56 can - viewed radially - run symmetrically to the central axis of the armature and it extends expediently over its entire thickness or its entire diameter.

However, the recess does not need to be designed in the form of a slot, nor does the slot need to be symmetrical extend to the central axis of the anchor. For example, the anchor can also have a cutout on one side, which provides space for mounting the switch 54.

It is also not necessary that the slot or the recess 56 at the top in the drawing of the Anchor is formed, it can also be in the middle area 58 or, if necessary, in the lower area 76 of the Be formed anchor.

In this case, the cable 52 would not be led out of the coil 46 upwards at the end, as shown. but approximately radially inwards, in which case the wall 78 of the coil with a corresponding slot is trained. If necessary, the anchor guide bushing 64 and the counter anchor 80 must then also have a Slot for the passage of the cable 52 can be equipped.

The switch 54 is provided with a switching element such as a Switching pin 60 is provided, which is axially displaceable and by means of a lever which is pivotably attached to the switch 54 can be acted upon as soon as the lever 62 on the armature guide bushing 64 starts up when the armature 44 is switched to the switching position.

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By fastening the switch 54 on or in the armature 44, space is saved, which may be required for others Items is available. If the cable 52 is not led out of the coil 46 at the end, as shown, but radially inward, which is not shown, the space 66 is also available for other purposes. As a result of the actuation of the switch 54 with the aid of the lever 62 approaching the armature guide bushing 64 a special linkage for switching the switch 54 is superfluous.

The valve according to the invention works as follows:

In the illustrated position of the valve, the valve seat 18 is closed. On both sides of the membrane 30, i.e. the In the inlet 14 and in the valve chamber 32, the inlet pressure prevails, since the two chambers are connected to one another via the overflow channel 34 stay in contact. The space in which the angle lever 38 is located is opposite to the valve chamber 32 With the help of a cuff 70 tightly closed.

The electromagnet 68 is switched off, the armature 44 is in its rest position and the angle lever 38 is through the compression spring 42, as already mentioned, is urged clockwise and thereby the valve piston 26 against its valve seat 24 pressed, whereby this is closed.

Since the same pressure prevails above and below the membrane 30, the valve disk 20 is opposed as a result of the difference in area pressed its valve seat 18 and thereby closed the valve.

If the electromagnet 68 is now actuated, i.e. its coil 46 is excited, the armature 44 is reversed into its switching position.

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switches, in which he acts against the force of the spring 42, the angle lever 38 and clockwise so pivots far that the valve piston 26 opens its valve seat. Thereupon can 32 pressure medium from the valve chamber flow through the channel 22 to the outlet 16, in which a corresponding counter pressure builds up, so that the main valve, i.e. the valve disk 2O opens.

To actuate the armature 44, only one of the two windings of the coil 46 is excited, but after the switching process has been carried out and the valve piston 26 has opened, there is only a smaller one to hold the valve piston Force and thus a lower energy supply to the coil 46 is required.

To achieve this, the second winding is switched on.

This is done automatically because the switch 54, which, as already mentioned, is firmly attached to the armature 44, in the Downward movement of the armature is automatically switched, creating the second winding at the moment in which this is necessary and suitable, is switched on.

As already indicated, this switching takes place in that when the armature 46 moves downwards, i.e. when it is in its switching position is switched, the lever 62 strikes the armature guide bushing 64 and is thereby pivoted, whereby he moves the switching pin 60, which in turn effects the switching in the switch 54. As long as the coil 46 is energized, the magnet 44 remains in its switching position, which is not shown in the drawing, with both windings of the coil are now connected in series, whereby the energy consumption of the coil decreases and the loss

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heat is reduced so that the temperature can be kept lower, which is especially true for plastic valves matters.

When the coil 46 is de-energized, the armature 44 is returned to the rest position shown in the figure by the spring 42 pushed back, the lever 62 comes free from the armature guide bushing 64 and again takes the one shown in the figure Position in which the second winding is not switched on.

As a result of this switchover, the valve seat 24 is closed, so that the inlet pressure in the valve chamber 32 is again builds up by which the valve plate 20 is pressed against its valve seat 18 and thereby closes the valve again will.

The invention results in a considerable saving in space because the switch 54 is on or within the magnet is housed. Since the switch also takes part in the movement of the magnet, no special linkage is required, to transmit the movement of the magneton for the purpose of switching the switch to it.

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Claims (5)

A 14 145 F. Müller 282 I Claims 1. Electromagnetically actuated valve, in particular plastic valve, with a housing, a valve seat and a valve piston which can be actuated by the armature of an electromagnet, which two means of a switch has windings which can be connected in series, characterized in that the armature (44) of the electromagnet (68) is provided with a recess (56) and the switch (54) for switching of the windings is arranged in this recess (54) and attached to the armature (44). 2. Valve according to claim 1, characterized in that that the recess in the form of a slot (56) at the end of the opposite to the actuation side Armature (44) is formed. 3. Valve according to claim 1, characterized in that that the recess is formed in the central region (58) of the armature (44). 4. Valve according to claim 1, characterized in that that the recess is formed in the area (76) of the armature (44) on the actuation side. 5. Valve according to one of the preceding claims, characterized in that the switch (54) as a result the movement of the armature (44) when a switching element (62) hits a part (64) fixed to the housing is switchable. 9098A7 / 0253 ORIGINAL INSPECTED