DE202010012769U1 - Sensor for monitoring a medium - Google Patents

Abstract

Sensor for monitoring a medium with an electromagnetic radiation source and an electromagnetic radiation detector, wherein the medium is located in the beam path between the electromagnetic radiation source and the detector and the refraction changes as the medium changes, characterized in that the electromagnetic radiation source (1) and the detector (2) are arranged in at least one housing (5), that either at least one area or at least one component of the housing (5) consists of material transparent to the radiation of the electromagnetic radiation source (1), that medium at the area or is located on the component of the housing (5), that at least one wall of the region is arranged or formed so that the radiation for refraction with an angle other than 90 ° hits the surface or exits and is thereby refracted, and that Detector (2) at least one photodiode (2) i st, so that when changing the medium, the radiation either not on the photodiode ...

Description

The The invention relates to sensors for monitoring a medium with an electromagnetic radiation source and a detector for electromagnetic radiation, whereby the medium in the beam path between the electromagnetic radiation source and the detector is located and the refraction on change of the medium changes.

Through the publication DE 10 2007 010 805 B3 For example, a method and apparatus for determining urea concentration in a solution is known. For this purpose, light is emitted at different angles of incidence onto an interface between a denser and a thinner medium, namely the body and the solution. This requires an interface between the body and the solution. The light is partially reflected at the interface, depending on the angle of incidence, and as the angle of incidence increases, the fraction of the light reflected from the interface increases. The reflected radiation is detected by a correspondingly arranged spatially resolving radiation detector.

The publication DE 10 2008 056 559 A1 includes a sensor arrangement for detecting a first liquid medium in a second liquid medium by means of reflection of an emitted light beam and an associated receiver. For this purpose, two encapsulated in a housing glass rod lenses are arranged parallel to each other. The glass rod lenses have a different optical refractive index than the liquid media. Opposite the glass rod lenses a reflection surface is arranged, which is connected to the housing.

adversely are that deposits and contaminants of the interface or the reflection surface falsify the measurement result can.

Of the The protection claimed in claim 1 is based on the object easy to monitor the composition of a medium.

These Task is with the features listed in the protection claim 1 solved.

The Sensors for monitoring a medium with an electromagnetic Radiation source and a detector for electromagnetic Radiation, where the medium in the beam path between the electromagnetic Radiation source and the detector is located and the refraction when changing the medium changes, stand out through their simple realization.

To are the electromagnetic radiation source and the detector in arranged at least one housing. Continue to exist either at least one area or at least one component the housing for electromagnetic radiation transparent material, with medium at the area or at the constituent of the housing is located. At least one wall of the area is arranged or designed so that the radiation for refraction at an angle other than 90 ° to the Surface meets or exits from this. About that In addition, the detector is at least one photodiode, so that when a change of the medium, the radiation either not on the photodiode or reaches the photodiode.

By the sensor is monitored by means of the transmitted light principle medium. When changing the medium, the changes Refractive index of the medium and consequently the angle of refraction. The Position of the radiation relative to the detector shifts yourself. There is either radiation or no radiation the detector, that's a measure of the change of the medium. This condition is detected and can be signaled. The measure of the change is over determines the size of the photodiode chip. To a correction of the medium, the radiation falls again on the photodiode, so that the normal state is reached.

These States, radiation does not reach or reaches the Photodiode is simply known acoustically and / or optically over a control device can be signaled.

One Another advantage is that otherwise to a change in intensity leading contamination on the housing has no effect exercise on the collection. The same applies the medium clouding components in the medium. critical for the detection is the impact of the electromagnetic Radiation and not their intensity. So have too No aging processes of the radiation source and the detector Influence on the sensor for monitoring a medium.

In order to is a simple sensor for monitoring a medium, that changes its refractive index when changed realized.

About that In addition, the sensor is characterized by the fact that only the medium outside the case. All ingredients of the sensor are arranged in the housing, so that a compact sensor is available. In the simplest case are the electromagnetic Radiation source and the detector facing each other arranged, leaving a space for the medium in between located.

advantageous Embodiments of the invention are in the claims 2 to 10 indicated.

The detector consists of the training of the protection claim 2 from arranged in a row or in a matrix photodiodes, so that the location of the arrived on the detector electromagnetic radiation from the position of the photodiodes and from the medium and a change of the medium can be detected. The number, size and spacings of the photodiodes determine the accuracy of the sensor. The sensor is a well-known array. Thus, in particular, the degrees of a mismatch can be detected. The accuracy is significantly improved over the use of only one photodiode.

in the Beam path after the electromagnetic radiation source is after the development of the protection claim 3 at least one of the radiation arranged conductive and / or deflecting device, so that the electromagnetic radiation source and the detector next to each other are placeable. The structure is simplified considerably. The electromagnetic Radiation source and the detector are on a support Placed next to each other.

conveniently, are according to the embodiment of the protection claim 4 mirrors or prisms the radiation-deflecting device, so that the radiation is deflected twice in succession. The electromagnetic radiation source is for this purpose advantageously over the medium over arranged the detector. The medium is between the device and the detector. This makes it a lot easier and compact design for the sensor given.

The the radiation conducting device is according to the development of the Protection claim 5 an optical waveguide. Owns the optical fiber preferably a U-shape, meets the radiation of the electromagnetic Radiation source on the adjacent detector.

According to the embodiment of the protection claim 6, a first part of the housing is a cup-shaped and made of a transparent material for the radiation molding. The first part also has a depression or cutout for the medium. At least one wall of the cutout as the area of the housing 5 is arranged or designed so that the refraction radiation hits or exits the surface at an angle other than 90 °. Completed is the housing with a lid as a second part of the housing. In the first part, at least the electromagnetic radiation source and the detector are arranged. The area of the housing with the depression or the cutout is placed in the medium, so that medium is also in the depression or the cutout. Over opposite wall regions of the depression or the cutout, the radiation is coupled in and out after passage of the medium.

conveniently, the molded part according to the embodiment of the protection claim 7 is integrally formed. This can be realized economically favorable Sensors are provided.

Of the Detector is according to the embodiment of the protection claim 8 a one or a two-dimensional sensor. Furthermore, the electromagnetic radiation source and the sensor is arranged side by side on a support, so that the location of the incident electromagnetic radiation assignable signal is detectable.

Of the Sensor is according to the embodiment of the protection claim 9 with a Data processing system for determining the location of the sensor arrived radiation from the position of the photodiodes connected. The Data processing system is a known microcomputer.

conveniently, is according to the embodiment of the protection claim 10, the medium one aqueous solution, so that the concentration at least of a substance in the aqueous solution detectable is.

One Embodiment of the invention is in the drawings each shown in principle and will be closer in the following described.

It demonstrate:

1 a sensor for monitoring a medium in a longitudinal section and

2 a sensor in a sectional view.

A sensor for monitoring a medium consists essentially of an electromagnetic radiation source 1 , a detector 2 a radiation deflecting device 3 and a housing 5 ,

The 1 shows a sensor for monitoring a medium in a longitudinal section in a schematic representation.

The medium is, for example, an aqueous solution. As is known, for the electromagnetic radiation source 1 a light emitting diode 1 and for the detector 2 a CCD sensor 2 used with photodiodes, where CCD stands for charge-coupled device. This is a one-dimensional (line) or two-dimensional (matrix) CCD sensor 2 executed.

The light-emitting diode 1 and the CCD sensor 2 are next to each other on a circuit board 4 when carrier 4 arranged.

The circuit board 4 is in a first part 6 of the housing 5 , This first part 6 is cup-shaped and consists of a for the radiation of the light emitting diode 1 transparent material. Furthermore, this first part 6 an integrally formed molding, which has a cutout 8th / has a recess for the medium.

In the beam path after the light emitting diode 1 is the radiation-deflecting device 3 arranged with two prisms or mirrors, so that the radiation is deflected twice in succession by 90 °. The entrance of the device 3 is in the plane of the light emitting diode 1 arranged so that their electromagnetic radiation into the device 3 is coupled. The exit for the coupling of the twice deflected by 90 ° electromagnetic radiation of the light-emitting diode 1 is in the plane of the CCD sensor 2 arranged. Between the device 3 and the CCD sensor 2 is the cutout 8th for the medium, so that over wall areas of the cutout, the electromagnetic radiation these wall areas and the space formed by the space of the cutout 8th penetrates. At least one wall of the clipping 8th is arranged or designed so that the refraction radiation hits or exits the surface at an angle other than 90 °. For this purpose, for example, either a plate-shaped wall is arranged at an angle different 90 ° to the radiation or this wall is wedge-shaped.

In case of application there is medium in this section 8th so that the radiation penetrates the medium in the cutout.

Advantageously, the optical elements are arranged so that the radiation is normally centered on the CCD sensor 2 arrives. If the composition of the medium changes, its refractive index and thus the angle of refraction change as well. The radiation of the light-emitting diode 1 arrives at a location different from the normal case and thus at another photodiode of the CCD sensor 2 , The location and thus the position can be detected and signaled.

In a first embodiment, the light-emitting diode 1 spaced from the medium above the CCD sensor 2 arranged (representation in the 1 ).

In a second embodiment, the light emitting diode 1 spaced apart from the CCD sensor 2 arranged.

The 2 shows a sensor in a schematic sectional view.

In the beam path after the light emitting diode 1 is the radiation-deflecting device 3 with the radiation reflecting devices 10 in the form of mirrors 10 in a light guide channel 9 arranged so that the radiation is deflected twice in succession by 90 °. The radiation-deflecting device 3 and the first part 6 of the housing 5 are either multi-or one-piece formable. The light-emitting diode 1 , the CCD sensor 2 , the device 3 and the clipping 8th are in one plane. In a variant of this second embodiment is a slit diaphragm 11 a component of the device 3 ,

The second part 7 of the housing 5 is a lid 7 , so that a self-contained sensor for monitoring the medium is realized.

In another embodiment, the CCD sensor 2 with a data processing system for determining the location of the CCD sensor 2 radiation came from the position of the light-emitting diodes. The data processing system is for this purpose a known microcontroller and is advantageously located on the printed circuit board 4 ,

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 102007010805 B3 [0002]
• DE 102008056559 A1 [0003]

Claims (10)

Sensor for monitoring a medium with an electromagnetic radiation source and an electromagnetic radiation detector, wherein the medium is located in the beam path between the electromagnetic radiation source and the detector and the refraction changes as the medium changes, characterized in that the electromagnetic radiation source ( 1 ) and the detector ( 2 ) in at least one housing ( 5 ) are arranged, that either at least one area or at least a part of the housing ( 5 ) for the radiation of the electromagnetic radiation source ( 1 ) transparent material consists of medium at the area or at the component of the housing ( 5 ) is arranged so that at least one wall of the region is arranged or formed so that the refraction radiation hits or exits the surface at an angle other than 90 ° to the surface and that the detector ( 2 ) at least one photodiode ( 2 ) is such that upon a change of the medium, the radiation is either not on the photodiode ( 2 ) or on the photodiode ( 2 ). Sensor according to protection claim 1, characterized in that the detector ( 2 ) consists of photodiodes arranged in a row or in a matrix so that the location of the photodiodes on the detector ( 2 ) reached electromagnetic radiation from the position of the photodiodes and from the medium and a change of the medium can be detected. Sensor according to protection Claim 1, characterized in that in the beam path after the electromagnetic radiation source ( 1 ) at least one radiation-conducting and / or deflecting device ( 3 ) is arranged so that the electromagnetic radiation source ( 1 ) and the detector ( 2 ) are placed side by side. Sensor according to protection claims 1 and 3, characterized in that mirrors ( 10 ) or prisms the radiation deflecting device ( 3 ) so that the radiation is deflected twice in succession. Sensor according to protection claim 1 and 3, characterized in that the radiation conducting device ( 3 ) is an optical waveguide. Sensor according to protection claim 1, characterized in that a first part ( 6 ) of the housing ( 5 ) is a cup-shaped and consisting of a material transparent to the radiation molding is that the first part ( 6 ) a depression or a cutout ( 8th ) for the medium, that at least one wall of the cutout ( 8th ) as the area of the housing ( 5 ) is arranged or designed such that the radiation for refraction hits or exits the surface at an angle other than 90 °, and that a second part ( 7 ) of the housing ( 5 ) a lid ( 7 ). Sensor according to protection claim 6, characterized that the molded part is integrally formed. Sensor according to protection claim 1, characterized in that the detector ( 2 ) is a one- or a two-dimensional sensor and that the electromagnetic radiation source ( 1 ) and the detector ( 2 ) side by side on a support ( 4 ) are arranged so that a signal assignable to the location of the incident electromagnetic radiation can be detected. Sensor according to protection claim 8, characterized in that the detector ( 2 ) with a data processing system for determining the location of the detector ( 2 ) received electromagnetic radiation from the position of the photodiodes of the detector ( 2 ) connected is. Sensor according to protection claim 1, characterized that the medium is an aqueous solution, so that the concentration of at least one substance in the aqueous Solution is detectable.