DE10253219B4 - Valve with reduced holding power - Google Patents

Abstract

Valve (1), in particular safety valve,
with a valve closure member (7) which is movably mounted with respect to a valve seat (6),
with a closing spring (15) which is connected to the valve closure member (7) in order to produce a closing force and which has an at least degressive characteristic (II),
with a (9) magnetic drive, which is connected to the valve closure member (7) and controlled by one of the force of the closing spring (15) generates opposing opening force.

Description

The The invention relates to a valve, in particular a safety valve with reduced power consumption.

safety valves as well as other open / close valves or control valves are often used by Actuator operated, which are constantly supplied with drive power to keep the valve open have to. A closing spring serves to valve closure member on its valve seat pretension. To open overcomes this valve the drive means the closing spring force and holds the valve open. As a drive device, an electromagnet is often used, whose armature is connected to the valve closure member. To keep open the valve is a continuous flow of current to the solenoid required. this leads to to a permanent one Energy consumption to keep open such Ven tile.

The DE 202 10 042 U1 discloses a valve with a piezoelectric actuator device and a spring element with degressive characteristic. This adjusts the spring to the piezoactuator.

Furthermore, from the DE 100 16 599 A1 a solenoid valve with a magnetic drive known in which between the armature and a fixed abutment a coil spring is arranged with a nearly linear characteristic. In addition, a disc spring is arranged between the end face of the armature and the counterpart, which should increase the spring force drastically on the last path of the armature. This is equal to a weakening of the resulting magnetic force. Spring arrangements whose spring force increases towards the end of the valve lift, however, require an increased holding current.

It Object of the invention, the power consumption of the magnetic drive to lower the valve.

This object is achieved by a valve having the features of patent claim 1:
The valve according to the invention has a magnetic drive, which is connected to the valve closure member to move it away from the valve seat and hold, as long as it is driven. On the other hand, a closing spring connected to the valve closure member serves to bias the valve closure member in the direction of the valve seat and finally to generate the closing force. If the actuator is deactivated, the closing spring moves the valve closure member in the direction of the valve seat and ver thus closes it.

The closing spring has an at least degressive characteristic. This means that the spring force of the closing spring with increasing opening of the Valve less than proportional (less than proportional) to the past Way of valve closure member grows. This is an otherwise when using conventional compression springs as a closing spring avoiding a proportional increase in the spring force. The from the actuator applied holding power to hold open the valve can thereby be reduced. In the case of electric lifting magnets or similar Drive devices as an actuator This requires a lower holding current than when using linear springs. The reduction of the holding power can turn in a reduction in the size of the corresponding actuator be implemented, giving constructive and economic benefits pulls.

at a preferred embodiment the spring characteristic is designed so that the spring force of the closing spring in Open position of the valve is lower than in the closed position. This can be the power required to hold the valve open especially to reduce. However, the closing spring is preferably dimensioned that they also at least a slight in the open position of the valve Closing force generated. This allows the valve to be used as a safety valve which automatically closes when the power supply to the actuator. The from the closing spring in the open position of the valve applied closing force is at least so great that to overcome them existing friction and adhesive forces and for sufficiently fast acceleration of the connected with the valve closure member sufficient movable parts. The closing force then increases with increasing approach the valve closure member to the valve seat to what the closing process accelerates and ensures that generates a sufficiently high clamping force is to close the valve closure member against the valve seat tighten. This can be used to meet safety standards that provide a high clamping force require the valve seat attached valve closure member. at the same time can be very low holding power and thus holding currents on the as an actuating device reach used magnetic drive. In addition, can be small closing times achieve.

A degressive (under-proportional) or even a retrograde (falling) spring characteristic can be achieved in that the closing spring contains at least one spring element whose direction of action is in an angle dependent on the position of the valve closure element to the direction of movement of the valve closure member. This angle can be vary from a sharp to a right angle. When the angle approaches the right angle, the force exerted on the valve closure member goes to zero. The spring elements can be made of individual compression springs, Ω springs or disc springs. Several such elements can be effectively arranged one behind the other. In order to avoid snap effects, it is expedient to connect a plurality of such disc spring elements elastically with each other, wherein the connection points define linear or progressive spring elements. The total degressive characteristic curve then comes about with suitable coordination by the serial arrangement of the individual plate spring elements, without the individual disc spring elements jump unintentionally over their respective pressure point.

Further Details of advantageous embodiments emerge from the drawing, from the description or from subclaims. In the drawing are exemplary embodiments of the invention illustrated. Show it:

1 a valve with degressive closing spring in principle,

2 the spring characteristic of the closing spring of the valve after 1 .

3 a modified spring characteristic for a closing spring of the valve after 1 .

4 a spring element for the closing spring of the valve after 1 in perspective,

5 a modified spring element for the closing spring of the valve 1 .

6 a modified embodiment of a closing spring for a valve after 1 in longitudinal section,

7 an alternative embodiment of a closing spring assembly for a valve in a schematic representation and

8th a valve with a retrograde closing spring arrangement in a longitudinal sectional view.

In 1 is a valve 1 illustrates that a valve housing 2 with an entrance 3 and an exit 4 having. The valve housing 2 encloses an interior in which a wall 5 with a valve seat formed therein 6 is formed in the form of an opening. The valve seat 6 is a valve closure member 7 assigned to the valve seat 6 is movably mounted to and from this. This is the valve closure member 7 via a valve spindle 8th with an actuating device 9 connected. This is formed for example by a magnetic drive, to which a coil 11 , a linearly mounted armature 12 and a magnetic return circuit 14 belong. Between the valve body 2 and the valve closure member 7 or a part connected to it, such as the valve stem 8th , a closing spring is supported 15 from which has a non-linear characteristic.

An example of such a spring characteristic is 2 can be seen in the spring force F over the path X of the valve closure member 7 is applied. The closing spring 5 is preloaded, so that at rest, when the valve closure member 7 on the valve seat 6 seated (X = 0), a closing force F ₀ is recorded. The linear spring characteristic of a conventional closing spring is in 2 dashed lines as curve I illustrates. The closing spring 15 of the valve 1 to 1 on the other hand shows a degressive characteristic according to curve II. This is characterized by the fact that their increase with increasing opening of the valve, ie with increasing distance X of the valve closure member 7 from the valve seat 6 , decreases. The characteristic according to curve II thus becomes progressively flatter with increasing X. In the open state of the valve 1 in which the valve closure member 7 has put back the way X ₁ brings the closing spring 15 the force F ₁ on. This spring force F ₁ is substantially lower than the force F ₂ which would apply a conventional closing spring with linear characteristic.

The actuating device 9 must to keep the valve open 1 only the holding force F ₁ , but not the holding force F ₂ apply. This is done with a much lower current than it would be required to overcome the holding force F ₂ . Accordingly, both the coil 11 as well as the drive circuit correspondingly weaker, smaller or lighter dimensions.

In a preferred embodiment, the characteristic takes the shape of the curve III according to 3 at. This characteristic is retrograde, ie, with increasing X decreases from the closing spring 15 applied force to the value F ₁ , which is less than the closing force F ₀ , which occurs when the valve closure member 7 on the valve seat 6 sitting.

To find a characteristic 2 or after 3 To produce, the closing spring, one or more spring elements 16a . 16b etc., as shown by the example of a spring element 16 in 4 are illustrated. The spring element 16 is a disc spring element with a conical basic shape. It is, for example, conical in itself Spring plate ring formed concentric with the valve stem 8th is arranged. Such a spring element 16 opposes an axial pressure with initially large and with increasing deformation ever decreasing force. In the state of the flat disc or in the vicinity reaches the spring element 16 a neutral point where the spring force reverses. As can be seen, the angle between the direction of movement of the valve closure member and the spring element changes 16 , The deformation of the spring element 16 achieved with proper operation of the valve 1 not this point.

The closing spring 15 preferably consists of a plurality of such spring elements 16 at their inner edge 17 and at its outer edge 18 , like out 1 seen, are interconnected to form a bellows-like arrangement. The connection is for example a welded connection. It connects the individual spring elements 16 springy with each other. Thereby overlap the spring characteristics of the individual spring elements with the spring characteristics of the elastic connections to a curve, for example according to 2 ,

If a softer spring characteristic is desired, instead of the spring elements 16 spring elements 19 according to 5 be used. These have a closed inner edge 21 and a closed outer edge 22 on. Between these is the spring element 19 with slots, between which are webs 23 . 24 from the inner edge 21 to the outer edge 22 extend. The webs are for example straight.

In order to develop the characteristic particularly degressive or even retrograde, the spring elements 16 or 19 in the relaxed state already be provided with a curvature. This is based on spring elements 25 ( 25a . 25b . 25c ) in 6 illustrated. The individual spring elements 25 are designed in the manner of Ω springs. The body of each spring element 25 may be closed or slit formed. At the outer and inner edges are the spring elements 25 preferably elastically connected to each other.

7 illustrates the operation of a closing spring assembly 26 for generating a characteristic according to 3 , Single feathers 27 . 28 For example, Ω spring, compression springs or the like, are symmetrical to a movable element, such as the armature 12 or the valve stem 8th and arranged obliquely to this. They close with the arrow 29 designated direction of movement an angle α. This angle increases with increasing opening of the valve. In 7 This is illustrated by the angle β, which is the springs 27 . 28 enclose with the direction of movement when the anchor 12 in the dashed line 31 designated position is located. In this way, the transmission ratio between the spring changes 27 . 28 and the valve closure member 7 according to the position of the same. 8th schematically illustrates an embodiment of such a valve 1 , The valve spindle 8th is over several Ω springs 32 . 33 extending radially from the valve stem 8th extend away, on the valve body 2 supported. The Ω springs 32 . 33 close with the valve spindle 8th in the closed position of the valve closure member 7 an acute angle α, which increases with increasing opening of the valve. Thus, in the open position of the valve has a lower spring force than in the closed position.

The valve 1 to 8th can also be designed bistable. It then receives a spring characteristic according to the spring force before reaching the open position of the valve reverses its sign. This can be achieved by referring to 7 the way of the anchor 12 is chosen so large that the angle β in the open position of the valve becomes the obtuse angle. Such valves may, for example, be provided with a permanently energized armature to be opened with a positive pulse and closed with a negative drive pulse.

To reduce the power required to hold a valve open is such a valve 1 with a closing spring 15 provided, which has a degressive characteristic. By in the open position of the valve 1 reduced force of the closing spring 15 must be an actuator 9 apply only reduced holding forces. The closing force of the valve 1 in closed position is not affected by this measure, so that all safety requirements can be met.

Claims (10)

Valve ( 1 ), in particular safety valve, with a valve closure element ( 7 ), which in relation to a valve seat ( 6 ) is movably mounted, with a closing spring ( 15 ), which with the valve closure member ( 7 ) is connected to generate a closing force, and which has an at least degressive characteristic (II), with a ( 9 ) Magnetic drive, with the valve closure member ( 7 ) and controls one of the force of the closing spring ( 15 ) generates opposing opening force. Valve according to claim 1, characterized in that the closing spring ( 15 ) has a characteristic (II, III), which contains at least one section in which the closing force (F) with increasing opening of the valve closure member ( 7 ) does not increase. Valve according to claim 1, characterized in that the closing spring ( 15 ) has a characteristic (III), which contains at least one section in which the closing force (F) with increasing opening of the valve closure member ( 7 ) decreases. Valve according to claim 1, characterized in that the closing spring ( 15 ) at least one spring element ( 16 . 19 . 25 . 27 . 28 . 32 . 33 ) whose Wirkungsrich tion in one of the position of the valve closure member ( 7 ) dependent angle (α, β) to the direction of movement ( 29 ) of the valve closure member ( 7 ) stands. Valve according to claim 1, characterized in that the closing spring ( 15 ) at least one plate spring element ( 16 . 19 . 25 ) having. Valve according to claim 5, characterized in that the disc spring element ( 16 ) is formed by a conical disc. Valve according to claim 5, characterized in that the disc spring element ( 19 ) is formed by a slotted disc. Valve according to claim 5, characterized in that the disc spring element ( 25 ) has a curvature. Valve according to claim 1, characterized in that the actuating device ( 9 ) is a powerless drive in the deactivated state. Valve according to claim 1, characterized in that the magnetic drive ( 9 ) is acted upon in the open position for generating a holding force with a reduced current.