DE102007040508A1 - Piezo actuator module and piezo actuator with a media-resistant protective layer and a method for producing the protective layer on the piezoelectric actuator - Google Patents

Abstract

A piezoelectric actuator module (3) for an arrangement surrounded by a medium, comprising an actuator base (5) and an actuator head (4) and at least one piezoactuator (20) of piezo elements (6) enclosed therebetween, is described, which has a protective layer system (24). comprising one or more functional layers, wherein a layer of an organic, media-resistant gel (33) or elastomer having a blocking effect of the gel (33) or elastomer at least opposite to the components of the medium harmful to the piezoelectric actuator (20) enhancing supplement (30, 31). In addition, a piezoactuator (20) with a protective layer system (24) having at least one functional layer made of an organic, media-resistant gel (33) or elastomer is described, which has a blocking effect of the gel (33) or of the elastomer at least opposite to the piezoactuator (20) harmful components of the medium-improving supplement (30, 31) is offset. Also disclosed is a method of increasing the barrier effect of a layer of a medicated, medially stable gel (33) or elastomer layer of a protective layer system (24) of one or more functional layers, comprising the steps of: adding a barrier effect of an organic, medially resistant gel ( 33) or elastomer-enhancing aggregate (30, 31), for example, a zeolite-based adsorbent, to the organic, media-stable aggregate.

Description

State of the art

The The invention relates to a piezoelectric actuator or a piezoelectric actuator according to the generic features of the claims 1 or 2, and a method in particular for increasing the barrier effect of an organic, media-resistant Gel or elastomer layer on piezo actuators or piezo actuator modules according to the generic features of the claim 10th

It is known per se that to build a previously mentioned Piezoelectric actuator or piezoelectric actuator piezoelectric elements are used so that by taking advantage of the so-called piezo effect, a controller the Nadelhubs a valve or the like can be made can. The piezo elements are made of piezo layers of a material with a suitable crystal structure so constructed that when an outer electrical voltage to internal electrodes, which are the piezoelectric layers respectively Include, a mechanical reaction of the piezo elements he follows.

In Dependence on the crystal structure and the contact areas the electrical voltage adjusts the mechanical reaction Pressure or train in a predeterminable direction. Such piezoelectric actuators For example, they are suitable for applications where strokes are required under high operating forces and high clock frequencies expire.

piezo actuators are used for example in Piezoinjektoren, which for Timing and quantity metering of fuel in periodic working internal combustion engines are used.

One Piezo injector consists essentially of a holding body and a piezoactuator module arranged in the holding body, consisting of a head and a foot part, as well as a arranged between the head and foot part piezoelectric actuator one or more piezo elements. The piezo actuator module is with connected to a nozzle needle, so by applying or Removal of a voltage to the piezoelectric elements a nozzle opening is released or closed.

In the case of what is known as direct nozzle needle control, the piezoelectric actuator in the holding body of the piezoinjector is operated directly in the fuel under high pressure. A piezo injector with direct nozzle needle control is for example off EP 117 46 15 A2 known.

To the Protection of the piezoelectric actuator or the piezo elements from moisture, for example, diesel, water, rapeseed methyl ester (RME) or other electrically conductive substances, against particles and suspended matter, in front of the surrounding high pressures, as well as before printing and Temperature fluctuations, it is known the piezoelectric actuator in a piezo injector with direct nozzle needle control at least partially with a To provide protective coating.

By the WO 01/48834 A2 is an electrical insulation of a piezoelectric element by a protective sheath made of plastic, which is applied for example by injection molding.

As well is known, a piezoelectric actuator of a piezoelectric actuator against the surrounding Medium sealed by the piezoelectric actuator in a sturdy metal sleeve is encapsulated. At one also called active face End face of the piezoelectric actuator is an actuator head, which Stroke and force of the piezoelectric actuator transmits to the outside. This actuator head is over a membrane with the stable Sleeve connected. The membrane creates a flexible, but tight connection between actuator head and sleeve. These Solution is suitable for applications where the piezoelectric actuator or the piezoelectric actuator module in the low pressure range a piezo injector is located. If the piezoelectric actuator, however, introduced in the high pressure range Thus, this solution achieves both in terms of Strength of the membrane, as well as in terms of strength of the stable sleeve limits.

By the DE 102 17 361 A1 is known a solution in which a piezoelectric actuator is coated on parts of its surface first with an organic base layer. This in turn is provided with an inorganic cover layer, which has the task of sealing the base layer with respect to the surrounding fuel, which would otherwise attack the organic base layer. Furthermore, it is described that the material for the organic base layer is preferably made of natural rubber, isoprene, butadiene or a fluorinated material.

By the WO 02/61856 A1 Furthermore, a solution is known in which a piezoelectric actuator module consisting of a piezoactuator, an actuator foot and an actuator head is first loosely coated with a heat-shrinkable tubing, in the following the gap between the heat-shrink tubing and the piezoelectric element is filled with a filling material, and finally the heat-shrinkable tubing shrunk and thereby tightly encloses the piezoelectric actuator and filling material.

Disclosure of the invention

The invention is based on a piezoelectric actuator or a piezoelectric actuator described above to the flowed around by a liquid and / or gaseous medium arrangement, in particular in a piezo injector, wherein the piezoelectric actuator consists of an actuator base and an actuator head and interposed electrically contactable piezoelectric elements as a piezoelectric actuator. A protective layer system comprising at least one piezoactuator and comprising one or more functional layers for preventing penetration of the medium or constituents of the medium into the piezoactuator is present, wherein at least one layer consists of an organic, medium-resistant gel or elastomer. According to the invention, the at least one layer of an organic, media-resistant gel or elastomer and / or the organic, media-resistant gel or elastomer comprises a barrier effect of the organic, medium-resistant gel or elastomer at least opposite to the piezoelectric actuator harmful components of the piezoelectric actuator or the piezoelectric actuator flowing around medium improving surcharge.

The Invention has the advantage over the prior art on that harmful ingredients from the fuel that over the lifetime of the piezoelectric actuator or the piezoelectric actuator in the arranged around the piezo actuator around, from the organic, media-resistant Gel or elastomer existing organic layer of the protective coating system diffuse, immobilized and / or their diffusion paths be extended.

A advantageous embodiment of the invention provides that the surcharge at least the harmful components of the medium adsorbent and immobilizing desiccant and / or adsorbent includes. Preferably, the supplement is based on zeolites. The aggregate therefore comprises zeolites and / or zeolite compounds, preferably different, different components of the Fuel adsorbing zeolites, to be used as a supplement.

The zeolite or zeolite compound is preferably of type Y with the chemical formula Na ₅₆ [(AlO ₂ ) ₅₆ (SiO ₂ ) ₁₃₆ ] .250H ₂ O. A type Y zeolite having the chemical formula Na ₅₆ [(AlO ₂ ) ₅₆ (SiO ₂ ) ₁₃₆ ] .250H ₂ O can for example immobilize 250 water molecules by adsorption. Through various chemical modifications of the zeolites, it is possible to produce zeolites with different adsorption properties. Highly hydrophobic zeolites, for example, preferentially adsorb non-polar molecules. By selective modification of the zeolites, it is possible to selectively adsorb and immobilize various harmful constituents of the fuel which diffuse from the outside through the protective layer system in the direction of the piezoelectric actuator. It is important to emphasize that layer thickness and zeolite content of the media-resistant gel or elastomer layer must be adjusted so that over the lifetime of the piezoelectric actuator or the piezoelectric actuator or a piezoinjector comprising a piezoelectric actuator all harmful components which diffuse into the protective layer system are adsorbed. In principle, the compounds adsorbed on the zeolites can be desorbed again by heating. However, the temperatures required for desorption are usually between 150 ° C and 300 ° C and thus well above the permissible temperature for the piezo actuators. Thus, zeolites are generally suitable as a supplement or as part of a surcharge for a layer of a protective layer system for a piezoelectric actuator forming media resistant gels or elastomers.

According to one Another advantageous embodiment of the invention, the surcharge includes one the diffusion paths of at least the harmful components of the medium extending filler. This filler may preferably be nanoparticles with a platelet-like Structure include. The nanoparticles with platelet-like Structure preferably consist of a layered silicate, which at least for the harmful, typically gaseous and / or liquid components of the Medium impermeable and is an obstacle in diffusion processes.

The introduced phyllosilicate is for gases and liquids impermeable and presents a hindrance to diffusion processes Corresponding diffusion paths gaseous or liquid harmful components of the fuel will be on this Way extremely extended, causing the ceramic piezo layers the piezo elements of the piezo actuators effectively against these components to be protected. Of polymers with incorporated therein Nanoparticle-made nanocomposites are used in the beverage industry used as a diffusion barrier against gases and also in automotives Range, as well as in numerous military applications successfully applied.

Important It should be emphasized that even when using nanoparticles as a surcharge or as a component of the surcharge, the layer thickness as well as the filler content of the gel layer adjusted so must be that over the lifetime of the piezoelectric actuator module or the piezoelectric actuator or a piezoinjector comprising a piezoactuator only an uncritical amount of harmful components of the Fuel can diffuse through the protective layer system.

A Particularly advantageous embodiment of the invention provides that the gel is a silicone-modified perfluoroether gel or a fluorinated one Silicone gel is.

• – Zugabe eines die Sperrwirkung eines organischen, medienbeständigen Gels oder Elastomers verbessernden Zuschlages zu dem organischen, medienbeständigen Gel oder Elastomer,
• – Herstellung mindestens einer funktionellen Schicht durch Beschichten eines Piezoaktors oder einer Piezoaktorreihe bestehend aus mehreren an ihren Stirnflächen miteinander verklebten Piezo-Aktoren, oder eines Piezoaktormoduls bestehend aus einem oder mehreren Piezoaktoren mit an den Stirnflächen angeordneten Anbauteilen in Form eines Aktorkopfes und eines Aktorfußes, mit dem mit dem Zuschlag versetzten, organischen, medienbeständigen Gel oder Elastomers, sowie

gegebenenfalls Herstellen weiterer funktioneller Schichten.Another object of the invention relates to a method for increasing the barrier effect of existing from an organic, media-resistant gel or elastomer layer of at least one piezoelectric actuator enveloping, penetration of a liquid and / or gaseous medium or components of the medium in the flow around the medium piezoelectric actuator from electrically contactable piezo elements preventing protective layer system of one or more functional layers. The method according to the invention comprises the method steps:

• Addition of a blocking effect of an organic, medium-resistant gel or elastomer-improving addition to the organic, media-resistant gel or elastomer,
• - Producing at least one functional layer by coating a piezoelectric actuator or a Piezoaktorreihe consisting of several bonded together at their faces piezo actuators, or a piezoelectric actuator consisting of one or more piezo actuators arranged on the end faces attachments in the form of an actuator head and an actuator base, with the added with the supplement, organic, medium-resistant gel or elastomers, as well as

optionally producing further functional layers.

Of the Piezo actuator or a Piezoaktorreihe consisting of two or more piezo actuators glued together at their end faces, or a piezo actuator module consisting of one or more piezo actuators with arranged at their free ends add-on parts, is first coated with one or more functional layers, wherein at least one layer of an organic, media-resistant Elastomer or gel, such as a silicone-modified Perfluoroether gel or a fluorinated silicone gel. by virtue of due to little cross-linking of the macromolecules of the Gels among themselves also as loosely assignable structure of the gel or the elastomer can be gases and liquids in gels or elastomers usually diffuse faster than in higher crosslinked polymers. The high flexibility of the gel or elastomer necessary to with it during the Operation of the piezoelectric actuator or the piezoelectric actuator integrity of the protective layer system, goes with a lower Barrier effect against short-chain constituents in the fuel, such as about water, RME and the like. To ensure the durability a Piezoinjektoren with Piezoaktormodulen or piezo actuators comprehensive Injection system must be over a long period of time, for example fifteen years to be sure that harmful Ingredients of fuel effective from the surface be kept away from the piezoelectric actuator. This is inventively Add a blocking effect of the medium-resistant gel or elastomers at least opposite to the piezoelectric actuator damaging ingredients of the medium improving supplement to the at least one layer of media-resistant gel and / or to the media-resistant gel or elastomer itself reached.

A advantageous embodiment of the invention Procedure provides that the supplement is a desiccant and / or Adsorbent comprises, on which the harmful compounds adsorbed and immobilized.

• a) große innere Adsorptionsfläche;
• b) hohe elektrostatische Adsorptionsflächen;
• c) selektive Adsorption durch Molekularsiebeffekt.

According to this advantageous embodiment of the invention, an adsorbent, for example based on zeolites, is preferably added to the medium-resistant gel. Zeolite compounds are highly complex crystal systems with a defined cavity and pore structure. Anhydrous zeolites serve for highly selective adsorption of molecules whose cross-sectional area is smaller than the pore openings to the cavities. The adsorption behavior of the zeolites is determined by the following properties:

• a) large internal adsorption area;
• b) high electrostatic adsorption surfaces;
• c) selective adsorption by molecular sieve effect.

A additional advantageous embodiment of the invention Procedure provides that the supplement is a filler includes the diffusion paths of the harmful components of the medium in media-resistant gel greatly extended.

According to this advantageous development of the invention Procedure becomes the media-resistant gel or elastomer a the diffusion routes of harmful components in the media-resistant gel or elastomer lengthening Filler preferably in the form of nanoparticles with a platelet-like Structure added. These are in particular fillers Based on so-called phyllosilicates suitable. For example by mixing the platelet-shaped nanoparticles with a polymer and subsequent crosslinking or curing can produce organic / inorganic nanocomposites become. Such a nanocomposite from a media-resistant Gel or elastomer and a layered silicate, due to the specific Structure significantly improved barrier properties.

A particularly advantageous embodiment of the method according to the invention provides that the addition by mixing the aggregate, for example in the form of zeolites and / or in the form of a platelet-shaped filler of sheet silicate in the organic medium-resistant gel or Elasto or, for example, in whose polymer-based starting materials prior to its crosslinking and / or before the production of the functional layer from the organic, media-resistant gel or elastomer takes place.

Short description of the drawing

One Embodiment of the invention is closer in the following described. Show it:

1 a schematic representation of a piezoelectric injector in a longitudinal section,

2 a schematic representation of a layered silicate,

3 a schematic representation of an organic / inorganic nanocomposite material of a polymer and phyllosilicates arranged therein, and

4 a schematic representation of a diffusion path of a liquid or gaseous compound in a nanocomposite material of a polymer and phyllosilicates arranged therein.

embodiments the invention

An in 1 illustrated piezo injector 1 essentially comprises a holding body 2 and one in the holding body 2 arranged piezoelectric actuator module 3 , which includes an actuator head 4 and an actuator foot 5 having. There are between the actuator head 4 and the actuator foot 5 several stacked piezo elements 6 to form the actual piezoelectric actuator 20 each consisting of piezolayers of piezoceramics and these enclosing internal electrodes 7 and 8th consist.

The internal electrodes 7 and 8th the piezo elements 6 are with external electrodes 10 and 11 and then over a plug part 9 electrically contacted. The piezo actuator module 3 is via a coupler 12 with a nozzle needle 13 connected. By applying a voltage to the piezo elements 6 over the internal electrodes 7 and 8th and the resulting mechanical reaction, as explained in the introduction, a nozzle opening 14 Approved. The piezo actuator module 3 will be in the illustrated application 1 as a piezo injector 1 in a room 15 one with the piezo injector 1 medium to be metered, typically flows around a fuel for an internal combustion engine.

The piezo actuator 20 is through a protective coating system 24 in front of the fuel in the room 15 or protected from harmful components of the fuel, such as water, RME or other electrically conductive substances.

The protective coating system 24 consists of one or more functional layers, wherein at least one layer consists of an organic, medium-resistant gel or elastomer.

According to the invention, the at least one layer of an organic, media-resistant elastomer or gel and / or the organic, media-resistant gel or elastomer itself comprises at least one barrier action of the gel or elastomer for the piezoactuator 20 harmful components of the fuel improving supplement.

Of the Surcharge can be, for example, an at least harmful Components of the fuel adsorbing and immobilizing Desiccant and / or adsorbent include. The surcharge preferably comprises zeolites and / or zeolite compounds, being different, different components of the fuel Adsorbing zeolites, can be used as a supplement.

A suitable zeolite or a suitable zeolite compound is, for example, of the type Y with the chemical formula Na ₅₆ [(AlO ₂ ) ₅₆ (SiO ₂ ) ₁₃₆ ] .250H ₂ O. A type Y zeolite having the chemical formula Na ₅₆ For example, (AlO ₂ ) ₅₆ (SiO ₂ ) ₁₃₆ ] .250H ₂ O can immobilize 250 water molecules by adsorption. Through various chemical modifications of the zeolites, it is possible to produce zeolites with different adsorption properties. Highly hydrophobic zeolites, for example, preferentially adsorb non-polar molecules. By selective modification of the zeolites, it is possible to selectively adsorb and immobilize various harmful constituents of the fuel which diffuse from the outside through the protective layer system in the direction of the piezoelectric actuator. It is important to emphasize that layer thickness and zeolite content of the media-resistant gel layer must be adapted so that over the lifetime of the piezoelectric actuator or the piezoelectric actuator or a piezoinjector comprising a piezoelectric actuator all harmful components which diffuse into the protective layer system are adsorbed. In principle, the compounds adsorbed on the zeolites can be desorbed again by heating. However, the temperatures required for desorption are usually between 150 ° C and 300 ° C and thus well above the permissible temperature for the piezo actuators. Thus, zeolites are basically as a supplement or as part of a surcharge for a layer of a protective layer system for a piezoelectric actuator forming media resistant gels.

Alternatively or in addition to the drying agent and / or adsorbent adsorbing and immobilizing the harmful constituents of the fuel, the aggregate may comprise a filler which extends the diffusion paths of at least the harmful constituents of the medium. A filler which prolongs the diffusion paths of the harmful constituents of the fuel in the media-resistant gel or elastomer can, for example, consist of nanoparticles having a platelet-like structure. In 2 is such a nanoparticle 30 represented with a plate-like structure. As nanoparticles 30 phyllosilicates are particularly suitable 31 which have a thickness y of a few nanometers in the case of flat dimensions x of at most 1 to 2 μm.

By mixing the platelet-shaped nanoparticles 30 in the form of phyllosilicates 31 with a polymer and subsequent crosslinking or hardening can be in 3 represented organic / inorganic nanocomposite 32 getting produced. Such a nanocomposite 32 Made of an organic, media-resistant elastomer or gel 33 and a layered silicate 31 due to the specific structure has significantly improved barrier properties.

The introduced phyllosilicate 31 is impermeable to gases and liquids and provides, as in 4 represented, an obstacle in diffusion processes. Corresponding diffusion paths P gaseous or liquid harmful components of the fuel are extremely extended in this way, whereby the ceramic piezoelectric layers of the piezoelectric elements of the piezoelectric actuators 20 , be effectively protected against these ingredients.

It is important to emphasize that even when using nanoparticles 30 as a supplement or as a component of the aggregate, the layer thickness of the gel layer must be adapted such that over the lifetime of the piezoelectric actuator module 3 or the piezoelectric actuator 20 or one a piezoelectric actuator 20 comprehensive piezo injector 1 only an uncritical amount of harmful components of the fuel through the protective coating system 24 can diffuse.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1174615 A2 [0006]
• WO 01/48834 A2 [0008]
• DE 10217361 A1 [0010]
• WO 02/61856 A1 [0011]

Claims (14)

Piezo actuator module ( 3 ) for an arrangement surrounded by a medium, consisting of an actuator base ( 5 ) and an actuator head ( 4 ) and at least one interposed piezoelectric actuator ( 20 ) of piezo elements ( 6 ) comprising at least the piezoelectric actuator ( 20 ) surrounding protective layer system ( 24 ) of one or more functional layers, wherein at least one layer of an organic, medium-resistant gel ( 33 ) or elastomer, characterized in that the at least one layer of an organic, medium-resistant gel ( 33 ) or elastomer and / or the organic, medium-resistant gel ( 33 ) or elastomer a the blocking effect of the gel ( 33 ) or the elastomer at least opposite to the piezoelectric actuator ( 20 ) harmful components of the medium ( 30 . 31 ). Piezoelectric actuator ( 20 ) for an arrangement surrounded by a medium, with piezoelements ( 6 ) and with a protective layer system ( 24 ) of one or more functional layers, wherein at least one layer of an organic, medium-resistant gel ( 33 ) or elastomer, characterized in that the at least one layer of an organic, medium-resistant gel ( 33 ) or elastomer and / or the organic, medium-resistant gel ( 33 ) or elastomer a the blocking effect of the gel ( 33 ) at least opposite for the piezoelectric actuator ( 20 ) harmful components of the medium ( 30 . 31 ). Piezoelectric actuator or piezoelectric actuator according to claim 1 or 2, characterized in that the supplement at least one of the harmful Components adsorbing and immobilizing desiccant and / or adsorbent. Piezoelectric actuator or piezoelectric actuator according to claim 3, characterized in that the aggregate based on zeolites consists. Piezoactuator module or piezoelectric actuator according to claim 4, characterized in that the zeolite or the zeolite compound of the type Y with the chemical formula Na ₅₆ [(AlO ₂ ) ₅₆ (SiO ₂ ) ₁₃₆ ] 250H ₂ O is. Piezoactuator module or piezoactuator according to one of the preceding claims, characterized in that the aggregate has a filler extending the diffusion paths (P) of at least the harmful constituents ( 30 . 31 ). Piezoelectric actuator or piezoelectric actuator according to claim 6, characterized in that the filler nanoparticles ( 30 ) having a platelike structure. Piezoelectric actuator or piezoelectric actuator according to claim 7, characterized in that the nanoparticles ( 30 ) from a layered silicate ( 31 ), which is impermeable at least to the harmful components. Piezoactuator module or piezoactuator according to one of the preceding claims, characterized in that the gel ( 33 ) is a silicone-modified perfluoroether gel or a fluorinated silicone gel. Process for increasing the barrier effect of an organic, medium-resistant gel ( 33 ) existing layer of at least one piezoelectric actuator ( 20 ), penetration of a medium or of components of the medium into the piezoelectric actuator ( 20 ) preventing protective layer system ( 24 ) of one or more functional layers, characterized by the steps of: adding a blocking effect of the organic, medium-resistant gel ( 33 ) or elastomer-improving aggregate ( 30 . 31 ) to the organic, media-resistant gel ( 33 ) or elastomer, - production of at least one functional layer by coating a piezoelectric actuator ( 20 ) with the surcharge ( 30 . 31 ), organic, media-resistant gel ( 33 ) or elastomer. Method according to claim 10, characterized in that that the supplement is a desiccant and / or adsorbent at which the harmful compounds adsorb and immobilized. Method according to claim 11, characterized in that that the adsorbent made on the basis of zeolites becomes. A method according to claim 10 or 11, characterized in that the aggregate is a filler ( 30 . 31 ), which controls the diffusion paths of the harmful components in the medium-resistant gel ( 33 ) or elastomers extended. Process according to claim 10, 11, 12 or 13, characterized in that the addition is effected by mixing the aggregate ( 30 . 31 ) into the organic medium-resistant gel ( 33 ) or elastomer takes place.