DE102006005529A1 - Plastic container with at least one electrode made of electrically conductive plastic - Google Patents

Abstract

A plastic container (10) comprises a container body (12) and an electrically conductive electrode device (28), which is arranged on the container body (12) in such a way that at least a portion (34) of the electrically conductive electrode device (28) for contacting through the Container body (12) filled or fillable material is exposed inside (26) of the container body (12), the electrically conductive electrode device (28) being formed at least in sections from electrically conductive plastic.

Description

The The present invention relates to a plastic container with a container body and with an electrode device which on the container body in such a way is arranged, that at least a portion of the electrically conductive Electrode device for contacting by filled in the container body or einfüllbares Material is exposed inside the container body.

Of the Container body surrounds a certain volume of space, into which through an opening in the container body material filled can be. In the case of electrically conductive materials, the material level in the container body an electrically conductive electrode device are detected. The electrode device must have at least two electrodes different electrical Potentials, which only by the filled in the container body material electrically connected to each other. Depending on whether the at least two Electrodes of different potential through the filled material electrically connected to each other or not, can at corresponding arrangement of the electrode device relative to the container body minimum level detected in the container body become.

is the electrode device mounted on the container body such that it depends on level of the material filled in the container body Dips differently into this varies with the immersion depth existing between the electrodes of different potential electrical resistance with the level, so when crossing the minimum level in the container body, from the contacting of the electrode device by the filled material done by measuring the electrical resistance between the Electrodes on the material level closed in the container body can be.

such Plastic containers are used, among other things, in automotive engineering as equipment containers, especially as a splash water container for the disk and windscreen wiper cleaning or as cooling water expansion tank.

The include known from the prior art electrode devices metallic electrodes, which are generally elongated and protrude into the interior of the container body.

adversely on the known from the prior art solution, on the one hand, that it by the current flow between the metallic electrodes of the known About electrode devices the operating time comes to an electrolysis, which in turn to deposits of components separated by the electrolysis of the material filled in the container body leads. The series are changing with increasing deposition Operating characteristics of the electrode device and one with the Operating time undesirable increasing unreliability the entry result.

Besides, they are the known electrode devices are often attached to the container body, that they are from the outside enforce inward, resulting in a significant effort for the seal of the container body leads the enforcement agencies. Even if the metallic electrodes in a container body produced by injection molding already Injected during its production, this compound is not on the total expected life of the plastic container tight, allowing to increase the Sealing effect additional Seals, such as O-rings, must be used. For this purpose, corresponding sealing seats on the metallic electrodes provided.

It It is therefore an object of the present invention to provide a technical teaching, like plastic containers of the type mentioned with much less effort at the same time improved quality in terms of reliability, Tightness and service life can be produced.

These The object is achieved by a generic plastic container solved at which the electrically conductive electrode device at least partially formed of electrically conductive plastic.

It has shown that, compared to the case of metallic electrodes, the electrolysis-related deposits on the electrodes in the Use of the same filled in the container body materials on electrically conductive Plastic can turn out less or even completely avoided. When Result is the detection result of the electrode device, at which electrically conductive plastic in the container body interior exposed for contacting the filled into the container body material over the overall service life of the plastic container more reliable, minor changes designed and thus of higher Accuracy as in the metallic electrodes of the prior Technology.

In a particularly simple case it can be provided that the electrode device is attached to a wall of the container body. Particularly preferably, the electrode device passes through a wall of the container body, since then at the located in the interior of the container body portion of the electrode means the contacting of Electrodes can be carried out by filled into the container body material and when a voltage is applied to the electrodes of the electrode means between these possibly flowing current can be conveniently detected at the located outside of the container body portion of the electrode device.

For this can be provided in particular that the electrode device one of electrically conductive Plastic trained Anschlußab has section, which for Contacting is formed by an electrical line. Especially preferred this connection section is integral with at least one electrode the electrode device is formed. Unlike the metallic one Electrodes of the prior art in which a complex, mostly Machining is required for electrodes made of conductive plastic the connection section already during the initial shaping of the electrode device or their respective electrode are formed.

at passing through a wall of the container body Arrangement of the electrode device comes a further advantage of Use of an electrode device, at least in sections made of electrically conductive Plastic is formed, clearly to bear. Compared to the in the prior art between container body and electrode device used material pairing plastic-metal are the material properties of in a plastic container according to the present Used material combination plastic plastic less different, so that the provision of additional sealing devices, like O-rings and the like, can be dispensed with. Rather, it can be independent of the manufacturing process used to make the plastic container between the container body and the electrically conductive Plastic of the electrode device to diffusion processes or merger processes occur, at least in sections to a cohesive connection of the electrically conductive Plastic can lead the electrode device with the plastic of the container body. Even but if this is not the case, the difference is about respective thermal expansion coefficient of the electrically conductive plastic and the plastic of the container body substantially less than the material pairing metal-plastic used in the prior art, so that thermally induced relative movements between the electrode device and container body lower fail than known plastic containers, what the tightness of a container body penetrated by electrodes increases.

At least an electrode, preferably all electrodes, of the electrode device the plastic container according to the invention are preferably as elongated Components are formed, which extend along an electrode longitudinal axis. this has the advantage that the container body, such as described above, of at least one electrode, preferably of all electrodes, can be penetrated, and at the electrodes even a sufficiently long section is available at which they from Be enclosed plastic of the container body can. The longer the electrodes enclosing Region are formed in the direction of the electrode longitudinal axis can, the better the container body can the enforcement point of the electrode device due to the increasing sealing surface without the use of additional from the container body and the electrode assembly separately trained sealing means, such as about sealing rings, to be sealed against leakage.

Preferably has the elongated one Electrode the above-described connection section in the area her outside the container body lying longitudinal end so that a sufficiently long electrode with the lowest possible Need for electrically conductive Plastic can be made.

It may be thought of only a few sections of an electrode form the electrode device of electrically conductive plastic. Easier and cheaper however, such an electrode is substantially completely made electrically conductive To form plastic. In this case, by suitable Urformwerkzeuge the electrode in the respectively desired Shape to be shaped as needed. "Essentially complete" is not meant to exclude that small amounts of other materials, such as contact shoes the connection sections and the like., At the electrode in question the electrode device can be provided.

The previously mentioned diffusion processes or merging processes between the material of the container body and the electrically conductive plastic of the electrode device, the to an increased Can lead tightness of a penetrated by at least one electrode container body of the plastic container, then be particularly easily effected when the container body forming Container body plastic and the at least a portion of the electrically conductive electrode device forming electrode-plastic compatible or same polymers exhibit.

With regard to the best possible sealing of the container body penetrated by at least one electrode at the point of penetration, it is particularly preferred that the electrically conductive plastic comprises a polymer matrix and electrically conductive particles incorporated therein, wherein the plastic of the polymer matrix and the container body plastic are compatible or even identical.

Basically the electrode means only one exposed in the container body Electrode component include, if this galvanically separated Having electrode elements of different electrical potential. However, such an electrode component is less preferred since its Production is very expensive. A preferred embodiment a plastic container according to the present Invention comprises two spaced-apart electrically conductive electrodes, both at least partially from electrical are made of conductive plastic and both such on the Container body arranged are that at least a portion of the electrically conductive Electrodes are exposed inside the container body.

Basically the above-described plastic container with any manufacturing method getting produced. So can For example, the electrodes of the electrode device and the Container body in produced separately and subsequently with each other to be assembled. However, such a manufacturing process would significant advantages of the plastic container according to the invention not optimal use.

Farther may be thought of, the electrodes of the electrode device separately from the container body and to put into a master mold for the production of the container body. The forming the container body Plastic molding compound could then the electrodes provided flow around, the plastic molding compound for forming the container body usually thermally softened and due to the elevated temperature of this molding material the previously mentioned advantageous diffusion processes or fusion processes between the provided plastic electrodes and the them enclosing Plastic container body portion could use.

It At this point it should be emphasized once again that to see a significant advantage of the present invention therein is that on the container body a Holding portion may be formed, which is an electrode or preferably all electrodes of the electrode arrangement without an intermediate arrangement separately trained sealant, in particular sealing rings and the like, surrounds fluid-tight. "Fluid-tight" should be gas-tight or / and liquid-tight mean. Since the plastic containers described in the present application are in usually designed for receiving and storing liquid, is a liquid-tightness sufficient on the holding portion of the container body.

Especially however, it is preferred that the container body and at least one electrode, preferably all electrodes, substantially simultaneously or in a short time sequence by a multi-component injection molding process, preferably by a two-component injection molding process. Here, a stable cohesive connection between the at least one electrode of electrically conductive plastic and the plastic the container body particularly simple be achieved, especially when used for the electrodes and for the container body Plastics on the same or at least one compatible Polymer based.

The Electrodes of the electrode device can have any cross-sectional shape exhibit.

The above-described preferred production method (multi-component injection molding method) therefore also provides a solution according to the invention of the present invention underlying task.

The The present invention will be described below with reference to the attached Drawings closer explained become. It shows:

1 a first embodiment of a plastic container of the present invention and

2 a second embodiment of a plastic container of the present invention.

In 1 is a first embodiment of a plastic container according to the invention in general with 10 designated. In the in 1 The example shown is the plastic container 10 to a splash tank for a windscreen washer system of an automobile. The plastic container 10 comprises a container body 12 from a lower shell 12a and a sealingly connected to this upper shell 12b ,

The container body 12 has a drain opening 14 and a filling opening 16 on. There is also an additional opening 18 provided, which can be used for example for material and / or pressure equalization.

The filling opening 16 is with a thread 20 provided, in which an unillustrated lid can be screwed to the filling opening 16 to close. The remaining openings 14 and 18 are plugged as Schlauchauf 22 respectively. 24 designed. In the interior 26 of the container body 12 extends an electrode assembly 28 with two electric the 30 and 32 made of electrically conductive plastic. The electrodes 30 and 32 are identical, so it is sufficient in the following, only in 1 left electrode 30 representative of the electrode as well 32 to describe.

The electrode 30 extends into the in 1 shown example along an electrode longitudinal axis ELA rod-shaped.

The electrode 30 includes a detection section 34 which of her in the interior 26 of the container body 12 located longitudinal end 30a to slightly above the longitudinal center of the electrode 30 enough. At this closes in the direction of the electrode longitudinal axis ELA a connection region 36 along which the electrode 30 of material of the lower shell 12a of the container body 12 is surrounded sleeve-shaped. In the longitudinal direction of the electrode longitudinal axis ELA to the connecting portion 36 subsequent longitudinal end region 38 that extends to the outside of the container body 12 located longitudinal end 30b the electrode 30 ranges, is formed as a connection portion on which an electrical contact at the end of an electrical line for contacting the electrode 30 is pluggable.

The electrodes 30 and 32 as well as the lower shell 12a and the upper shell 12b of the container body 12 comprise the same polymer material. This will only be for the container body 12 unfilled and for the electrodes 30 and 32 used filled with electrically conductive particles.

Along the connecting section 36 are on the lower shell 12a molded sleeves 40 cohesively with the electrodes 30 and 32 connected and thus ensure a good seal of the lower shell 12a at the point where these are from the electrodes 30 and 32 is interspersed. The pods 40 represent a previously mentioned holding portion of the container body 12 The cohesive connection is the almost simultaneous production of lower shell 12a and electrode means 28 produced by a per se known two-component injection molding process. By diffusion processes and / or merging operations on the after the injection molding process still warm electrodes 30 and 32 and pods 40 it comes between these to form a sealing compound layer. However, even if this compound layer is not formed completely or even not at all, the two-dimensionally seal at the electrodes 30 and 32 adjacent sleeves 40 the lower shell 12a against leakage, since the electrodes 30 and 32 as well as the lower shell 12a by the use of the same or at least one compatible thermoplastic polymer material substantially the same or at least very similar material properties, in particular thermal expansion coefficients have, so that during thermal load changes hardly a sealing endangering relative movements between the electrodes 30 and 32 and the pods 40 occurs.

About the connection sections 38 and 39 the electrodes 30 respectively. 32 can by means of a not shown in the container body 12 integrally molded socket 42 plugged in an electrical voltage to the electrodes 30 and 32 be created, which then have a different electrical potential. By measuring the electrical resistance between the electrodes 30 and 32 (For example, by measuring the voltage drop between them) can at least on the presence of a minimum filling quantity in the container body 12 getting closed. Be the electrodes 30 and 32 wetted by electrically conductive liquid, the detected resistance decreases to a finite value.

In 2 a second embodiment of the present invention is shown. Same components as in 1 are denoted by the same reference numerals, but increased by the number 100 , For an explanation of these components is expressly to the description in connection with 1 directed.

The embodiment of 2 is different from that in 1 essentially by the shape of the electrodes 130 and 132 the electrode assembly 128 , The electrode 130 is in 2 formed angled. Also the electrodes 130 and 132 be together with the lower shell 112a produced in a two-component injection molding process.

Also the electrode 132 intersperses the lower shell 112a of the container body 112 , being like the electrode 130 is formed angled. Your connection section is in 2 through the connection section 138 the electrode 130 covered.

Claims (11)

Plastic container ( 10 ; 110 ) with a container body ( 12 ; 112 ) and with an electrically conductive electrode device ( 28 ; 128 ), which on the container body ( 12 ; 112 ) is arranged such that at least one section ( 34 ; 134 ) of the electrically conductive electrode device ( 28 ; 128 ) for contacting through into the container body ( 12 ; 112 ) filled or fillable material inside ( 26 ; 126 ) of the container body ( 12 ; 112 ), characterized in that the electrically conductive electrode device ( 28 ; 128 ) is at least partially formed of electrically conductive plastic. Plastic container according to claim 1, characterized in that the electrode device ( 28 ; 128 ) on a wall of the container body ( 12 ; 112 ) is attached. Plastic container according to claim 2, characterized in that at least one electrode ( 30 . 32 ; 130 ) of the electrode device ( 28 ; 128 ) the wall of the container body ( 12 ; 112 ) interspersed. Plastic container according to claim 3, characterized in that the electrode device ( 28 ; 128 ) formed of electrically conductive plastic connection portion ( 38 . 39 ; 138 ), which is designed for contacting by an electrical line. Plastic container according to claims 3 and 4, characterized in that the electrode device ( 28 ; 128 ) at least one electrode ( 30 . 32 ; 130 . 132 ) which extends along an electrode longitudinal axis (ELA), wherein a first longitudinal end (FIG. 30a ; 130a ) of the electrode ( 30 ; 130 ) internally ( 26 ; 126 ) of the container body ( 12 ; 112 ) and a second, opposite the first longitudinal end ( 30b ; 130b ) of the electrode ( 30 ; 130 ) outside the container body ( 12 ; 112 ) and the connection section ( 38 ; 138 ) in the region of the second electrode longitudinal end ( 30b ; 130b ) is trained. Plastic container according to one of the preceding claims, characterized in that at least one electrically conductive electrode ( 30 . 32 ; 130 . 132 ) of the electrode device ( 28 ; 128 ) is formed substantially entirely of electrically conductive plastic. Plastic container according to one of the preceding claims, characterized in that the container body ( 12 ; 112 ) forming container body plastic and the at least one section ( 34 . 36 . 38 ; 134 . 138 ) of the electrically conductive electrode device ( 28 ; 128 ) have forming electrode-plastic compatible or the same polymers. Plastic containers according to claim 7, characterized in that the electrically conductive Plastic a polymer matrix and incorporated electric conductive particles, wherein the plastic of the polymer matrix and the container body plastic are compatible or identical. Plastic container according to one of the preceding claims, characterized in that the electrode device ( 28 ; 128 ) two spaced apart electrically conductive electrodes ( 30 . 32 ; 130 . 132 ), both of which are at least partially made of electrically conductive plastic and both of which on the container body ( 12 ; 112 ) are arranged, that in each case at least one section ( 34 ; 134 ) of the electrically conductive electrodes ( 30 . 32 ; 130 . 132 ) internally ( 26 ; 126 ) of the container body ( 12 ; 112 ) is exposed. Plastic container according to one of the preceding claims, characterized in that the container body ( 12 ; 112 ) a holding section ( 40 ; 140 ) having an electrode ( 30 . 32 ; 130 . 132 ) of the electrode assembly ( 28 ; 128 ) without intermediate arrangement of separate sealing means, in particular O-rings and the like, fluid-tight surrounds. Method for producing a plastic container ( 10 ; 110 ) according to one of the preceding claims, wherein the container body ( 12 ; 112 ) and the at least one electrode ( 30 . 32 ; 130 . 132 ) are produced by a multi-component injection molding process, preferably by a two-component injection molding process.