DE3713697A1 - Ultra-fast control valve - Google Patents

Abstract

Electrically operated ultra-fast valve with a drive consisting of stacked piezoelectric elements. Control valves which are operated by means of a coil with a core and armature are too slow to achieve short operating times for the switching devices for high, medium and low voltages. The use of piezoelectric elements capable of rapid switching fails to produce the desired result because the valve opening achieved is too small, even where a stack of 50 elements is used. The invention makes available a valve with a drive comprising stacked piezoelectric elements, in which an increase in the stroke is achieved by virtue of the ratio of the top surface of the stack of piezoelectric elements (11) to the piston area of the valve tappet (5) and by means of a hydraulic space (10) arranged between these elements. <IMAGE>

Description

The invention relates to an electrically operated, ultra-fast valve with a drive made of stacked piezoelectric elements.

An electrical trigger pulse has heretofore usually been converted into a hydraulic control implemented that a valve by means of a coil with Iron and anchor was moved. However, such a system behaves relatively sluggish, since a magnetic field has to build up and relatively large Masses are to be moved. Such delays are, especially in the Use of the hydraulic control for switching devices for high, medium and low voltages, disadvantageous as it is based on these switchgear short switching times arrive.

From DE-PS 29 17 933 is an electrically operated valve with a Drive known from stacked piezoelectric elements. Doing so a valve opening through a stack of 50 piezoelectric elements  achieved, for example, for controlling the fuel flow a motor vehicle engine is sufficient.

However, such a valve operated with piezoelectric elements is not suitable for opening large flow openings because the stroke, despite the stacking of many elements, in the order of approx. 1 mm lies. For the hydraulic control of large forces, a large through must flow opening are released, which is a correspondingly large stroke of the tax valve requires.

The object of the invention is to make a valve available, that is suitable for fast and reliable switching of large forces.

The object is achieved in that by the surfaces ratio of the stack top surface of the piezoelectric elements to the Piston surface of the valve lifter and one between these elements arranged hydraulic space an increase in stroke is achieved.

The advantage of the valve according to the invention is that large flow openings for high pressures are released extremely quickly. It is un sensitive to wear, reliable in its function, needed low maintenance and is simple in construction. It is for them extremely quick mastery of large forces.

Further developments of the inventions can be found in the subclaims.

A particularly favorable embodiment of the invention, the increase in Reliability, as well as operational safety, is one Compensation for expansion of both the hydraulic fluid and the piezoelectric elements due to changes in outside temperature.

The invention is illustrated below with reference to one in the figure Embodiment explained in more detail.

A stack of piezoelectric elements 11 is located in a space 12 , the interior of a pot-like housing 13 . The piezoelectric elements 11 can be glued to one another or pressed together by a mechanical voltage. They are electrically connected in parallel so that they enlarge in the axial direction and contract in the transverse direction during the energy consumption. In this way, in an already known manner, the effects of the individual elements are added together. The space 12 of the pot-like housing 13 is closed off by a membrane 17 which rests on the surface of the stack of the piezoelectric elements 11 . The pot-like housing 13 is closed by a cover 9 , which forms a flange with the housing 13 , which clamps the membrane 17 . The cover 9 has a funnel-shaped configuration, so that a hydraulic chamber 10 is formed between it and the membrane 17 . The cover 9 contains the sealed seat of a valve lifter. This valve tappet 5 leads into a valve block 3 which is connected to the cover 9 . This valve block 3 contains a valve seat that cooperates with a valve plate of the tappet 5 . By moving the plunger 5 upward, a high-pressure chamber 16 is connected to a low-pressure chamber 7 . A spring 4 ensures the restoring force of the plunger 5 and the contact pressure of the valve plate on the seat 6 in the event that, in rooms 16 and 17, there is equal pressure. A screw connection 1 is used to adjust the contact pressure of the spring 4 .

The function is as follows: By closing a switch 14 , the piezoelectric elements 11 are connected to a voltage source 15 , which causes a change in shape of the stack of approximately 200 μm, which presses the fluid upward and thereby actuates the plunger 5 . Since the stack cover surface of the piezoelectric elements 11 is larger than the piston surface of the valve stem 5 , an increase in the stroke is achieved in the ratio of these surfaces.

Through a bore 8 of the plunger 5 , a connection of the hydraulic chamber 10 with the high-pressure chamber 16 is achieved. As a result, the hydraulic fluid is compensated if it expands due to the change in the outside temperature. A change in the height of the stack of the piezoelectric elements 11 due to a change in temperature is also compensated in this way. For this purpose, a dimensioning of the clear width of the bore 8 is required, which permits such compensatory processes, but does not affect the transmission of the stroke of the stack of the piezoelectric elements 11 by means of the hydraulic fluid on the valve stem 5 . The dimensioning of this clear width depends on the volume ratios and the viscosity of the hydraulic fluid. It is expediently set in such a way that the compensation processes are in the seconds range, so that the switching processes, which are in the microsecond range, are not impaired. This connecting channel 8 expediently contains a nozzle whose clear width is adjustable.

A fast and reliable switching of large forces in electrical Switchgear is best achieved in that the invention Valve used as a pre-valve for the hydraulic control of these switching devices finds.

Claims (6)

1. Electrically operated valve with a drive made of stacked piezoelectric elements, characterized in that by the area ratio of the stacking surface of the piezoelectric elements ( 11 ) to the piston surface of the valve lifter ( 5 ) and a hydraulic space ( 10 ) arranged between these elements, an enlargement of the stroke is achieved. 2. Electrically-actuated valve according to claim 1, characterized in that the hydraulic chamber (10) by means of a connecting channel (8) with a high-pressure chamber (16) in communication and in that the Verbin is dung channel sized (8) so that the expansion due to Compensate for a change in the outside temperature, but the stroke of the stack of the piezoelectric elements ( 11 ) as a result of a switching process is fully transferred to the valve stem ( 5 ). 3. Electrically actuated valve according to claim 1 or 2, characterized in that the connecting channel ( 8 ) is dimensioned so that the compensation of the hydraulic fluid, which is caused by the change in the outside temperature, takes place in a period of seconds. 4. Electrically operated valve according to claim 1 or 2, characterized in that the connecting channel ( 8 ) contains a nozzle ( 2 ) which is adjustable in its internal width. 5. Electrically operated valve according to one of claims 1 to 4, characterized in that the stacked piezoelectric elements ( 11 ) in the space ( 12 ) of a pot-like housing ( 13 ) that the Ge housing ( 13 ) with a cover ( 9th ) forms a flange in which the membrane ( 17 ) is clamped, and that the cover ( 9 ) encloses the high-pressure chamber ( 16 ) by a funnel-shaped configuration and contains the valve tappet ( 5 ) by means of a sealed seat. 6. Electrically operated valve according to one of claims 1 to 5, marked by its use as a hydraulic control valve electrical switching device.