DE102007043486A1 - Sensor for detecting a level of a liquid in a container and fuel cell system with such a sensor - Google Patents

Abstract

The invention relates to a sensor for detecting a level of a liquid in a container, comprising a metallic housing (2) having an opening (3) from which extends a rod-shaped element (5) which is formed from a dielectric material (6) in which a detector element (7) is embedded, wherein on the outside (11) of the rod-shaped element (5) at least partially an electrically insulating material (12, 15, 16) is formed, which at least partially on which the opening (3) the housing (2) limiting the front edge (4) of the housing (2) is formed. The invention also relates to a fuel cell system with such a sensor.

Description

The The invention relates to a sensor for detecting a level a liquid in a container, with a metallic housing with an opening from the an element extends, which consists of a dielectric material is formed, in which a detector element is embedded. The The invention also relates to a fuel cell system having such Sensor.

Such a sensor is shown in an exemplary sectional view in FIG 1 shown. The sensor 1 includes the metallic housing 2 with a front opening 3 , from which a rod-shaped element 5 extends, which is a trained brass detector element 7 includes that of the dielectric material 6 is surrounded and thus embedded in this. In the case 2 is also a control and evaluation 8th arranged, which with the housing 2 and with the detector element 7 electrically contacted.

An in 1 The sensor shown is also used in a fuel cell system in order to be able to detect there, for example, the fill level of the water in a container assigned to the fuel cell system. The sensor 1 works according to the capacitive principle.

The medium in the container of the fuel cell system, which then also the sensor 1 also contains system effluents, such as carbon fibers, aluminates and silicates. These settle after a short time on the outside of the rod-shaped element 5 and form a dense surface there. This covering is indicated by the reference numerals 9 and 10 characterized.

Adverse properties of these contaminants, which are as a coating 9 and 10 are, on the one hand, that they can store in themselves water and second, that they are electrically conductive. Thus, the pollution forms in the form of the coating 9 respectively. 10 a conductive bridge between the rod-shaped element 5 and the metallic housing 2 , especially the front edge 4 , As a result, an electrode is virtually formed around the tip and thus the rod-shaped element 5 formed, so that the sensor 1 virtually no water in the container can recognize more and thus detects the level wrong.

A sensor for detecting the level of introduced in containers media is from the DE 100 21 059 B4 known, which in a similar manner as in the 1 shown sensor 1 is constructed.

It The object of the present invention is to provide a sensor with the level detection in liquid Media that have flushing, done precisely can.

These The object is achieved by a sensor which has the features as claimed 1, solved. Furthermore, this task is accomplished by a fuel cell system having the features of claim 8 has dissolved.

One Inventive sensor for detecting a level a liquid in a container comprises Metallic housing with an opening, from the an element extends, which consists of a dielectric material is formed, in which a detector element is embedded. The Element represents one electrode of the sensor. On the outside the particular rod-shaped element is at least partially an electrically insulating material is formed over it In addition, at least in some areas on the opening the housing bounding the front edge of the housing is trained. By being consistent and complete between the outside of the rod-shaped element and the front edge of the housing extending electrically insulating material can be in the near transition region between Housing and the rod-shaped element the fast Formation of an electrically conductive layer, which through the impurities washed out in the liquid can be prevented. This can also be an electrical Bridge between the rod-shaped element and the Housing can be avoided and thereby the measurement precision the sensor also in media with such flushing clearly be improved. Due to this configuration, the "creeping distance" between the measuring tip of the sensor and the housing be extended many times. The formation of a compact Electrode due to contamination in the liquid medium, For example, carbon fibers, aluminates and silicates, can thus be significantly delayed, especially even completely be prevented.

Preferably is the electrically insulating material as a circumferential ring on the outside of the rod-shaped element is formed, which extends radially outward so far that he also rests at least partially on the edge of the housing. This ring-like shape can be a geometrically simple Element to be created, which is to solve the above Problematic contributes efficiently.

It can be provided that this electrically insulating material between the outside of the rod-shaped element and the front edge of the housing is attached to it insoluble, and for example sprayed or as a coating is applied. However, it can also be provided that the electrically insulating material, in particular when it is designed as a ring, is provided as a separate part and is preferably pushed onto the sensor. In particular, in this case a sliding over the rod-shaped element can be provided up to the stop on the front edge of the housing.

Preferably is a transition between the electrically insulating material and the outside of the rod-shaped element the side facing away from the edge of the housing stepped. Through this step-like design, the growth of Dirt formed in the liquid medium layer be clearly inhibited.

Preferably is at least partially inside the case Airspace between the outside of the rod-shaped Elements and the inside of the housing formed, wherein this air space with the electrically insulating material at least partially, in particular completely, is filled.

Preferably is provided that the electrically insulating material on the the side of the housing facing away from the edge as a hollow body is trained. In particular, a hollow cylinder can be provided here be. Such a tubular design of a portion the shape of the electrically insulating material improved the functionality of the sensor again, as the electric Bridging between the housing and resulting from contamination forming layer can be reduced again.

Especially has the electrically insulating material between the outside the rod-shaped element and the front edge of the housing Thus, both the ring-like part, as well as the airspace in the Inside of the housing filling part, as well the additional tubular or hollow body-shaped on the front part.

Prefers the electrically insulating material is at least partially silicone on. Particularly preferred is the electrically insulating material made entirely of silicone.

One Fuel cell system according to the invention a container for receiving water, and an inventive Sensor or an advantageous embodiment thereof, which for level measurement of the water is arranged in the container. That in the Container existing liquid medium has beside impurities which, for example, carbon fibers, Aluminates or silicates can be. The fuel cell system is preferably designed as a mobile fuel cell system and intended for use in a motor vehicle. The fuel cell system includes at least one fuel cell, which as a PEM fuel cell is preferably formed, in particular a plurality of such Fuel cells for forming a fuel cell stack, available is.

embodiments The invention will be described in more detail below with reference to schematic drawings explained. Showing:

1 a schematic sectional view of a known from the prior art sensor;

2 a schematic sectional view of a first embodiment of a sensor according to the invention; and

3 a schematic sectional view of a second embodiment of a sensor according to the invention.

In The figures are the same or functionally identical elements with the provided the same reference numerals.

In 2 is a sectional view of a sensor 1 shown, which is designed to detect a level of a liquid in a container. The container and the sensor 1 are associated with a fuel cell system in a vehicle, wherein the liquid is water, and may have contaminants in the form of, for example, carbon fibers and / or aluminates and / or silicates.

The sensor 1 includes a housing formed of a metallic material 2 which has a front opening 3 (please refer 1 ) having.

Out of this opening 3 extends forward an electrode in the form of a rod-shaped element 5 which is a dielectric material 6 in which a detector element 7 is integrated in the form of a brass tip and of this dielectric material 6 is surrounded.

In the case 2 is also a control and evaluation 8th arranged.

For a longer use of the sensor 1 for level detection and thus in a situation in which the rod-shaped element 5 is in prolonged contact with the liquid and thus also flushed out dirt, may be on the outside 11 of the dielectric material 6 an electrically conductive layer 9 form.

To contact the layer 9 with the metallic housing 2 and in particular the front edge 4 to prevent is in the 2 shown embodiment, an electrically insulating material 12 arranged in the form of a silicone ring in the vicinity of the housing. The silicone ring is formed as a separate part and on the rod-shaped element 5 until it stops at the front edge 4 of the housing 2 postponed. As can be seen, this electrically insulating material extends 12 from the outside 11 , on which it is formed immediately adjacent, in the radial direction (y-direction) continuously to the front edge 4 where it is also directly attached. In the execution according to 2 is the area of the front edge 4 only partially of the electrically insulating material 12 covered.

On the front edge 4 opposite side of the electrically insulating material 12 is a stepped transition 13 educated. Also by this sharp edge formation at the transition 13 can the electrical bridging between the layer 9 and the housing 2 be contained or prevented.

As shown in 2 the rod-shaped element extends 5 also partially into the interior of the housing 2 , Partially, the rod-shaped element 5 while a diameter which is smaller than the inside 17 of the housing 2 , so that inside the case 2 an airspace 14 between the outside 11 and the inside 17 is trained.

In 3 is another embodiment of a sensor 1 shown in which, in contrast to the embodiment according to 2 this airspace 14 also with an electrically insulating material 15 is formed, which is also silicone. In particular, the electrically insulating material 12 and the electrically insulating material 15 integrally formed. Preferably, the air space 14 completely filled with the silicone material. In addition, on the front edge 4 opposite side of the silicone ring according to the electrically insulating material 12 a tubular hollow body is formed, which also consists of an electrically insulating material 16 is trained. In the exemplary embodiment, this is also silicone. The from the electrically insulating material 16 formed hollow body has an inner diameter which is larger than the outer diameter of the rod-shaped element 5 , creating an air space between the inside of the electrically insulating material 16 and the outside 11 of the rod-shaped element 5 is trained. Here, too, it is provided in particular that the electrically insulating material regions 12 . 15 and 16 represent a one-piece element with the appropriate shape. Again, this can be made as a separate part and on the rod-shaped element 5 as shown in 3 be deferred.

In the 2 and 3 explained embodiments of the material areas 12 . 15 and 16 are preferred embodiments, yet by way of example and not to be construed as limiting the invention. Thus, in principle it can also be provided that an electrically insulating material 12 and or 16 also over the entire surface of the edge 4 extends and / or even at least partially on the outside 18 of the housing 2 extends. In such an embodiment can then be provided that, for example, the electrically insulating material 12 not only is designed as a ring, but is designed like a cap and according to the rod-shaped element 5 is deferred and also the outside 18 covered at least partially encompassing.

1

sensor

2

casing

3

opening

4

front edge

5

rod-shaped element

6

dielectric material

7

detector element

8th

Tax- and evaluation electronics

9 10

covering

11 18

outside

12 15, 16

insulating material

13

stepped transition

14

airspace

17

inside

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

• - DE 10021059 B4 [0006]

Claims (8)

Sensor for detecting a level of a liquid in a container, comprising a metallic housing ( 2 ) with an opening ( 3 ), from which an element ( 5 ), which is at least partially made of a dielectric material ( 6 ) is formed, in which a detector element ( 7 ), characterized in that on the outside ( 11 ) of the element ( 5 ) at least partially an electrically insulating material ( 12 . 15 . 16 ) is formed, which at least partially on the opening ( 3 ) of the housing ( 2 ) bounding front edge ( 4 ) of the housing ( 2 ) is trained. Sensor according to claim 1, characterized in that the electrically insulating material ( 12 . 15 . 16 ) as a circumferential ring on the outside ( 11 ) of the element ( 5 ) is formed, which at the edge ( 4 ) of the housing ( 2 ) is present. Sensor according to claim 1 or 2, characterized in that the transition ( 13 ) between the electrically insulating material ( 12 . 15 . 16 ) and the outside ( 11 ) of the element ( 5 ) on the edge ( 4 ) facing away from stepped side is formed. Sensor according to one of the preceding claims, characterized in that inside the housing ( 2 ) at least partially an airspace ( 14 ) between the outside ( 11 ) of the element ( 5 ) and the inside ( 17 ) of the housing ( 2 ) formed with the electrically insulating material ( 12 . 15 . 16 ) is filled. Sensor according to one of the preceding claims, characterized in that the electrically insulating material ( 12 . 15 . 16 ) on the edge ( 4 ) facing away from the side is designed as a hollow body. Sensor according to claim 5, characterized in that between the inside of the hollow body and the outside ( 11 ) of the element ( 5 ) An air space is formed. Sensor according to one of the preceding claims, characterized in that the electrically insulating material ( 12 . 15 . 16 ) Silicone, in particular consists of silicone. Fuel cell system with a container for holding water, and a sensor ( 1 ) according to one of the preceding claims, which is arranged for level measurement in the container.