DE3024601A1 - Piezoelectric transducer with signal actuated function - uses electric control signal to switch fluidic pressure flow from one output to another one - Google Patents

Abstract

An electric signal actuates a control member, in order to trigger a transducer switching function in relation to the appearance or quenching of a fluidic output signal. The pressurised fluidic flow is affected in an inlet zone by a fluidic interference magnitude, produced by the electric signal, in such a manner that the pressurised flow is switched from one transducer outlet to the other. The fluidic interference magnitude is pref. generated by an electrically energisable oscillation generator (8), comprising a diaphragm (9) closing a resonator chamber (15). The diaphragm surface is connected with an oscillator crystal (10), while a turbulence amplifier (1) is used as a fluidic element. The amplifier and the oscillator may form an integral unit, the amplifier having an inlet zone (4), through which flow the pressurised fluid from a connecting union (P).

Description

E / P converter

The invention relates to an E / P converter with an electrical one Signal a control element is actuated, for a converter switching function with the result to trigger the creation or deletion of a fluidic output signal.

E / P converters are elements that use electrical input signals can be converted into fluidic output signals.

The group of these elements includes, for example, solenoid valves, which carry out this transformation in an electro-mechanical way. Next to it are E / P converters known in which the fluid switching function is carried out directly dynamically working elements takes place. Converters designed in this way work in part with a nozzle-baffle system in which the baffle plate is electromagnetic is excited, or according to the principle of ionophoresis, in which a fluidic Supply beam is ionized by high voltage in an ionization chamber, control electrodes or electromagnets connected downstream in the flow direction enable controlled beam deflection.

A characteristic of the systems mentioned is that a relatively large electrical Power for reversing or E / P conversion is required or that elements with minimized electrical power build in an undesirable manner large volume, what also has a detrimental effect on manufacturing costs.

It is therefore the object of the invention to create an E / P converter, which can be controlled with extremely low electrical power, while being small builds and can be manufactured in an economical manner.

This object is achieved according to the invention in that a fluidic Pressure medium flow in a zone of influence with the help of an electrical signal directly generated fluidic disturbance variable is influenced in such a way that the pressure medium flow at one converter output changes to another.

A turbulence intensifier can be used as the fluidic element find which can be influenced by a fluidic disturbance variable, which by means of a electrically excitable vibration generator is generated, which has a resonator chamber has final membrane, which is connected flatly with an oscillating crystal is. The advantages that can be achieved are in particular that these elements can be linked directly to fluidic-electronic circuits, so that these fluidic switching signals can be taken directly.

With the aim of miniaturization, the turbulence amplifier and the vibration generator form a structural unit, the turbulence amplifier being a May have influence zone, which emanates from a pressure medium connection fluidic pressure medium flow is flowed through in the longitudinal center and in which the disturbance variable Via the resonator chamber of the vibration generator with the zone of influence of the turbulence amplifier connecting, transversely to the longitudinal center of the zone of influence in this opening breakthrough can be initiated.

The E / P converter can consist of a pot-shaped housing, in the bottom of which the fluidic turbulence intensifier is incorporated and its Closure to the atmosphere is the area connected to the oscillating crystal and the resonator chamber limiting membrane forms.

Further miniaturization is possible if the fluidic Disturbance is generated by means of an electrically excitable vibration generator, which is arranged directly in the zone of influence. The vibration generator can Separate the zone of influence into two consecutive rooms and made of a vibrating crystal exist, which concentric to the longitudinal center of the influence zone a breakthrough and is provided with a suspension.

A particularly advantageous, because simple and inexpensive solution results from the fact that the oscillation system with a serving as part of the influence zone Recess provided and connected to a channel plate in which a with the recess covering breakthrough is introduced, also as a breakthrough worked a calming section for the fluidic pressure medium opens.

This junction is aligned with the calming section Collecting channel opposite, while the channel plate on its free surface with a Intermediate plate is connected, which covers the channel plate and with one with the Dimensions of the opening identical to the opening and one each with the opening remote ends of the calming section and the collecting channel in connection The free area of the intermediate plate is provided with an end plate covered, which each have a hole and coincide with the holes mentioned has a bore opening into the breakthrough. The zone of influence is with their side having the confluence of the calming section in the area of the arranged largest vibration amplitude of the vibration generator.

For special applications, the pneumatic element can be equipped with a turbulent Work flow and the disturbance generated by a vibration generator the pneumatic element via a connecting the resonator chamber with the zone of influence Connecting channel are supplied so that the turbulent flow on a other exit turns.

With the help of a feedback channel, which the through the fluidic Disturbance activated output with the connection channel between the resonator chamber and the zone of influence connects, an electrical pulse signal can be converted into a fluidic Continuous signal can be converted.

The fluidic element can be designed as an edge tone amplifier.

The invention is explained in more detail below with reference to the drawings. It shows in cross section: FIG. 1 an E / P converter with a fluidic one Element to which the electrical vibration generator is attached, Figure 2 a E / P converter, in which the electrical vibration generator is in the zone of influence of the fluidic element is built in, Figure 3 one such corresponding to FIG. 2, in which, however, two electrical oscillating systems are used find, Figure 4 an E / P converter in sandwich construction, Figure 5, 6 and 7 individual parts of the E / P converter according to FIG. 4, FIG. 8 an E / P converter in which a turbulence amplifier is used as a fluidic element, Figure 9 such a corresponding figure 8 for the conversion of an electrical impulse signal into a: fluidic continuous signal.

The embodiment of an E / P converter shown in FIG. 1 consists from a pot-like housing 2, in the bottom 3 of which a turbulence intensifier 1 is incorporated is and the conclusion of which forms the electrical oscillating system. The turbulence intensifier 1 consists essentially of an influence zone 4, in which one with the pressure medium connection P connected calming section 5 opens as well as an aligned opposite, Channel 6 designed as a receiving nozzle. In the zone of influence 4 continue to open or several ventilation channels R and a breathing hole 7, which the zone of influence 4 connects to the atmosphere, as well as a breakthrough 14, which the zone of influence 4 with the resonator chamber 15 connects. The breathing hole 7 is located axial under the opening 14. The resonator space 15 is delimited by a membrane 9, which is flatly connected to an electrically excitable oscillating crystal lo. The A cover plate 11 forms the end of the housing 2. The oscillating crystal 1o is over electrical connections 12 can be connected to a power source. The space between the oscillating crystal 1o and the cover plate 11 are connected via a breathing hole 13 connected to the atmosphere. When port P is pressurized, it flows in Pressure medium flow through the calming section 5 into the zone of influence 4. The into this incoming pressure medium flow has a laminar character and is after overcoming the Influence zone 4 partially through the channel 6 which is aligned with the calming section 5 is collected and is available at port A as working pressure. With electrical Excitation of the oscillating crystal 10 via the electrical connections 12 is this set in vibrations, which are amplified via the membrane 9 and the resonator chamber 15 will. These vibrations become the volume of air located in the resonator chamber 15 communicated and penetrate as a disturbance via the breakthrough 14 into the zone of influence 4 a. This has the consequence that the laminar pressure medium flow present there in the way it is disturbed that it becomes turbulent. The pressure signal then disappears at outlet A, and the pressure medium flow is via the ventilation channel R of the atmosphere The breathing hole 7 increases the influence of the penetration 14 in the zone of influence 4 reached the disturbance variable. Will the electric If the excitation of the oscillating crystal lo is interrupted, a laminar one is formed again Pressure medium flow that appears at output A as a pressure signal.

A differently constructed, but also a turbulence intensifier as an E / P converter containing a fluidic element is shown in FIG. That Housing 16 encloses the zone of influence 4, in which one with the pressure medium connection P connected calming section 5 opens. And which at your other At the end of two ventilation channels R and one aligned with the calming section 5 Connection A has.

The vibration generator 19 is arranged directly in the zone of influence 4 and separates them into two consecutive rooms 17 and 18. It consists of an oscillating crystal 20, which is concentric to the longitudinal center of the zone of influence 4 has an opening 21 and is provided with a suspension 22. The one from that Pressure medium connection P flowing in pressure medium flow occurs after passing through the calming section 5 at its confluence with the zone of influence 4 from laminar, penetrates largely unhindered the breakthrough 21 of the at a distance a in front of the outlet opening of the calming section 5 arranged electrically excitable oscillating crystal E 2o. And is at output A. available as a pressure signal. The application of an electrical voltage to the oscillating crystal 20 causes this to be set in axial vibrations. This will make the Edge flow of the laminar pressure medium flow forced vibrations that by Molecular correspondence disturb the laminar flow so that it is also turbulent will. This turbulent flow of pressure medium passes through the space 17 with it the ventilation duct R connecting the atmosphere, on the other hand through the ventilation ducts' R 'into the atmosphere.

Another alternative of one using a turbulence enhancer E / P converter is shown in FIG. The electrically excitable oscillation system exists from two oscillating crystals 23 and 24, each of which has a diaphragm support 25 and 26, the transverse to the longitudinal center of the zone of influence 4 contact-free one behind the other opposite wall surfaces of the zone of influence 4 are supported and concentric to the longitudinal center of the same openings 27 and 28 have. The breakthroughs 27 and 28 laminar pressure medium flow, which penetrates largely unhindered, is at Applying an electrical excitation voltage to the oscillating systems working in opposite directions so disturbed that the laminar pressure medium flow is turbulent. The effect is based on that a scissors-like displacement of the openings 27 and 28 takes place. as As a result, the output signal at connection A and the pressure medium flow extinguish in turn escapes partially via the ventilation duct R or the ventilation ducts R 'into the atmosphere.

A miniaturized version of an E / P converter based on the turbulence amplifier system is shown in Figures 4-7. This essentially consists of an electrical one excitable oscillation system 29, in which directly part of the entry zone as Recess 30 is incorporated. The oscillation system 29 is with one Channel plate 31 connected in which an opening that coincides with the recess 30 32 is introduced, in which also worked as a breakthrough a calming section 33 for the fluidic pressure medium opens out and this confluence opposite one with the calming section 33 is arranged in alignment collecting channel 34. The channel plate 31 is in turn connected on its free surface with an intermediate plate 35, which covers the channel plate 31. and with one with the dimensions of the opening 32 identical opening 36 and one each with the one facing away from the opening 36 Ends of the calming section 33 and the collecting channel 34 connected Provide hole P1 or A '. The lower surface of the intermediate plate 35 is provided with a End plate 37 covered, which each one with the holes pound Al coincide Bore P or A 'and a bore R opening into the opening 36. at The oscillating system 29 which is at rest is the one coming from the pressure medium connection P Pressure signal is available at port A. When an electrical excitation voltage is applied on the oscillating system 29, the pressure signal at connection A disappears, and the turbulent The pressure medium flow that has become occurs occurs via the ventilation channel R e.g.

into the atmosphere. The exit of the calming section 33 into the influence zone is expediently carried out in the area in which the oscillation system 29 is the largest Amplitude when the electrical excitation voltage is applied, C.

Another embodiment of an E / P converter is used accordingly FIG. 8, as fluidic element 38, an edge tone amplifier. This system will driven in the area of turbulent flow. The edge tone effect is based on the fact that protruding edges introduced into the pressure medium flow, in this example Edge 40, cause turbulent oscillations in the speed profile. By applying pressure medium of connection P is formed due to the center offset b of the junctions of the Ventilation channel R and port A take precedence over the pressure medium flow at the vent channel P can flow out. By the previously described electrical Excitable vibration system will vibrate over the original pressure medium the connecting channel 39 is further superimposed, so that the pressure medium flow after connection A is deflected out.

FIG. 9 shows a variant of the EIP converter shown in FIG shown, which can be referred to as fluidic storage. This execution has a feedback channel 41 which forms part of the pressure medium flow of the connection A feeds tangentially into the connecting channel 39, so that the center offset b as a result of this, the primacy that originally existed is canceled. This switching state is generated by an electrical pulse signal supplied to the vibration generator 8 reached and held until the zone 4 supplied via the port P of the influence Pressure medium flow is interrupted. The connection A is provided with a vent hole 42, which supplies the excess pressure to the atmosphere when dynamic pressure occurs.

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Claims (13)

Claims C1.) E / P converter, in which with an electrical signal a control element actuates to a converter switching function with the result of the emergence triggering or deletion of a fluidic output signal, characterized in that that a fluid pressure medium flow in an influence zone with the help of a through the electrical signal generated fluidic disturbance is influenced in such a way that the pressure medium flow changes from one converter outlet to another. 2. E / P converter according to claim 1, characterized in that the fluidic Disturbance variable is generated by means of an electrically excitable oscillation generator t8), which has a membrane (9) closing off a resonator chamber (15), which is connected with an oscillating crystal (lo) is flatly connected, and that as a fluidic element a fluidic turbulence intensifier (1) is used. 3. E / P converter according to claims 1 and 2, characterized in that that the turbulence amplifier (1) and the vibration generator (8) are one structural unit form, the turbulence intensifier (1) 130063/0376 a zone of influence (4), which fluidic pressure medium flow emanating from a pressure medium connection (P) is flowed through in the longitudinal center and in which the disturbance variable via a resonator chamber (15) of the vibration generator (8) with the zone of influence (14) of the turbulence amplifier (1) connecting, transversely to the longitudinal center of the zone of influence (4) opening into this breakthrough (14) can be introduced. 4. E / P converter according to claims 1 to 3, characterized in that it has a pot-like housing (2), in the bottom (3) of which the fluidic turbulence intensifier is located (1) is incorporated and its conclusion to the atmosphere with the oscillating crystal (lo) flatly connected and the resonator chamber (15) delimiting membrane (g) forms. 5. E / P converter according to claim 1, characterized in that the fluidic Disturbance generated by means of an electrically excitable vibration generator (19) which is arranged directly in the zone of influence (4). 6. E / P converter according to claim 5, characterized in that the vibration generator (19) separates the zone of influence (4) into two consecutive rooms (17 and 18) and a vibrating crystal (2c) which is concentric to the Longitudinal center of the zone of influence (4) has an opening (21) and with a suspension. (22) is provided. 7. E / P converter according to claims 5 and 6, characterized in that that the oscillation generator (19) consists of two oscillating crystals (23 and 24), which are each provided with a panel support (25 or 26), which are transverse to the longitudinal center the zone of influence (4) ke gs-free one behind the other on overlying wall surfaces the zone of influence (4) 'are supported and concentric to the longitudinal center of the same openings (27 and 28). 8. E / P converter according to claim 1, characterized in that the oscillation system (29) is provided with a recess (30) serving as part of the zone of influence and is connected to a channel plate (31), in which a with the recess (3c) covering breakthrough (32) is introduced, also as a breakthrough worked a calming section (33) for the fluid pressure medium opens; whereby Opposite this confluence, a collecting channel aligned with the calming section (33) (34) is that the channel plate (31) on its free surface with an intermediate plate (35) is connected, which covers the channel plate (31) and with one with the dimensions the opening (36) identical to the recess and one each with that of the opening (36) facing away ends of the calming section (33) and the collecting channel (34) in link standing bore (P) or (A ') is provided, and that one surface of the intermediate plate (35) is covered with an end plate (37) is, which is one with the holes (P ') and (A) congruent hole (P) resp. (A ')) and a bore (R) opening into the opening (36). 9. E / P converter according to claim 8, characterized in that the zone of influence (4) with its confluence with the calming section (33) having side in the Area of the greatest oscillation amplitude of the oscillation generator C9) arranged is. 1o. E / P converter according to Claim 1, characterized in that a pneumatic Element (38) is used, which works with turbulent flow, and that the disturbance variable generated by a vibration generator (8) corresponds to the pneumatic one Element (38) connecting the resonator chamber (15) with the zone of influence (4) Connecting channel (39) is supplied so that the turbulent flow on a other exit turns. 11 E / P converter according to claim 1o, characterized in that the through the disturbance variable active output by means of a feedback channel (41) with the connection channel (39) is connected. 12. E / P converter according to claims 10 and 11, characterized in that that the pneumatic element (38) is designed as an edge tone amplifier. 13. E / P converter according to claims 11 and 12, characterized in that that the feedback channel (41) tangentially in the direction of the flow of the fluidic Disturbance flows into the connection channel (39).