DE19802462A1 - Chemical sensor linked to an identification or evaluation instrument - Google Patents

Abstract

A chemical sensor (1) which detects the presence of a given substance is linked via an electrical cable (2) to an analytical device (3) from which it may be detached. The transponder (5) attached to the sensor (1) also generates a unique identifying signal. The transponder (5) has a read-out coil (7) which is linked to a read-out device (9). The sensor (1) and the read-out coil (7) are permanently joined.

Description

The invention relates to a device for chemical Analysis, with an analyzer, with at least one Sensor that can be detached from the connecting cable Analyzer is connected, in particular with a electrochemical sensor connected by an electrical cable is detachably connected to the analyzer, with an on Sensor attached transponder in which an individual Identification of the sensor and, if applicable, for the sensor relevant, changeable data are stored, and with a reading coil for the transponder, the reading coil can be connected to an evaluation unit and for reading the data stored in the transponder is suitable.

The term "sensor" is used in this application for example electrodes, but also all other, local movable, not rigid with the chemical analyzer connected, interchangeable sensor to understand.

In any case, these sensors are Components that show significant wear with change of component properties and a lifetime limit subject to tension. Therefore, they are usually simply made changeable.

Such a device usually only delivers reliable data if all of its components beforehand were calibrated. This calibration must be done regularly Intervals are repeated. At the above one direction are in particular the electrochemical sensors, the z. B. glass electrodes, ion-sensitive electrodes,  Temperature sensors or conductivity cells, however can also be optical sensors, especially for measurement errors otherwise vulnerable. To make a reliable analysis in any case or to be able to carry out measurements are required for every analysis to take into account the individual data of the sensor and in particular to document. This has to be taken into account notice that the sensors show significant wear with a change in their properties and thus one Lifetime limitation.

A control and documentation of the time-varying So far, the properties of the sensors can only be independent of Sensor happen in an external system, usually in the analyzer detachably connected to the sensor. Therefore it can easily happen that analyzes with not suitable sensors can be carried out without this is noticed, or that the sensors used are not too the calibration data stored in the external system fit.

It is known in the field of liquid chromatography the column a so-called column identification module (CIM). The module essentially consists of a transponder whose ID of a reading coil arranged in the immediate vicinity and to an evaluation unit and from there for analysis device can be directed. The use of the column relevant data, such as serial and batch numbers, Dimension, particle size, packing material and number of Injections are made electronically in the transponder drawn.

Because the module referred to in this known system Transponder and the associated write and read coil must be spatially close to each other, the The distance may not exceed 1 cm, is an as "Control module" designated handheld device provided that the Includes writing and reading coil. To read or change the  The handheld device is in the data stored in the transponder immediate spatial proximity to the pillar identification module bring to. A disadvantage here are the additional, from User steps to be performed and the despite This system offers the opportunity to carry out an analysis or Separation without identification of the separation column used perform.

The invention is therefore based on the object Setup of the type mentioned an automatic, secure and inexpensive identification of the used Allow sensors, the sensors in any spatial position with respect to the analyzer can be and yet every time the sensors are used attached transponder with the evaluation unit Exchange data. An analysis without this data exchange So it shouldn't be possible. Because the sensors are often relative are inexpensive compared to the analyzer, is in the task of the invention also required that additional elements for safe and automatic Identify the sensors also at low cost cause.

This object is achieved in that the Sensor or an inextricably linked part in the area its detachable connection point to the analyzer unsolvable bar is connected to the transponder and that the Analyzer or a related part in the area its connection point to the sensor on the reading coil points.

According to the invention, the free mobility of the sensor remains received relative to the analyzer. The transponder and the associated reading coil, in particular a read / write coil, can be at different points in the connection between the analyzer and the sensor. It is only essential that when connecting the Sensor to the analyzer forced the reading coil in  immediate spatial proximity to that attached to the sensor Transponder comes without the user additional must perform manual steps.

The transponder is preferably non-detachable from the sensor whose junction with the connecting line and the Reading coil at the sensor end of the connecting cable appropriate.

It is also proposed that the reading coil over a electrical cable connection with the evaluation unit is tied, which in turn is particularly associated with the analyzes device is connected via a data line. It is irrelevant whether the evaluation unit itself in the Analyzer is integrated or as a stand-alone device is designed.

The application of the invention is particularly preferred on Analyzers using electrochemical sensors work. The sensor can be used with the analyzer a detachable connecting line connected to the analyzer be. The connecting cable can be detached from the sensor head or be permanently connected to the sensor. Here is note that the transponder and the reading coil, which, as will be explained in more detail below, also as Read / write coil can be formed in direct spatial proximity to each other are attached to the sensor head. Is the sensor detachable from the connecting line bound, it is preferred if the transponder is unsolvable with the sensor head and the reading coil inseparable with the ver binding line is connected. This ensures that Sensors can be replaced without the Ver inevitably disconnect the connection line from the analyzer have to.

In the case of the inseparable ver with the connecting line tied sensors is an unsolvable with the analyzer connected reading coil and an inseparable from an analysis  Device-side connector of the connecting line connected Transponder preferred.

It is important for a high level of security against abuse the impossibility to destroy the transponder from the Solve sensor. This requirement can be different Way to be realized. If the sensor is tubular educated, as is very often the case, it is preferred if the transponder is in a around the sensor arranged around and welded with this art ring is welded. The transponder can also be used Advantage inserted directly into the plastic head of the sensor be poured. In any case, the transponder and the Do not weather plastic coating in aggressive air. Should the sensors be located at measuring locations with elevated temperature transponder and plastic must be used jacket also meet these conditions.

To ensure a long service life of the device according to the invention To make it possible even in rough working conditions Transponder preferably as a shockproof one Glass transponder trained.

In particular, it is proposed that the read coil is designed as a read / write coil suitable for transmitting data to the transponder, which is suitable for automatically updating the sensor-relevant variable data, and that the transponder is writable. In this way, the time-varying properties of the sensors can be recorded in the transponder permanently connected to the sensors and can be called up again when the sensors are used. For example, it is possible to transmit the following data from the analyzer to the transponder:
Calibration parameters with the associated time of the calibration (stored in the sensor so that they cannot be mixed up),
Number of calibrations made so far,
Operating time,
Number of measurements,
Date and time of the last measurement,
current information about the sensor (preparation, pre-treatment, etc.)

An embodiment of the invention is as follows explained in more detail with reference to drawings. Show it

Fig. 1 is a schematic representation of the arrangement of a device according to the invention,

Fig. 2 specific details of the sensor and its Ver connecting line corresponding to FIG. 1,

Fig. 3 is a side view of the head portion of the sensor of FIGS. 1 and 2 and

Fig. 4 is a perspective view of the sensor-side connector, the connecting line for the sensor of FIG. 3.

The same reference numerals have been used in all drawings have the same meaning and are therefore possibly only one times explained.

In the exemplary embodiment, a glass electrode 1 is used as the electrochemical sensor and is detachably connected to an analysis device 3 via an electrical cable 2 . According to the invention, a transponder 5 is welded or cast into the plastic head 4 of the sensor 1 .

In a detachable from the plug head 4 of the sensor 1 cable connector 6 , a read / write coil 7 is cast or welded from the outside. In an intended use of the sensor of the cable connector 6 must be inevitably screwed to the plug head 4, as shown in FIGS. 3 and 4 can be seen, so that the recorded measuring signal is transmitted via the cable 2 to the analyzer 3. The arrangement according to the invention of the transponder 5 and the read / write coil 7 always ensures that both units are located at the short distance necessary for reading or writing to the transponder 5 . By connecting the read / write coil 7 to the transmission cable 2 , the inventive spatial flexibility of the sensor unit is guaranteed.

The read / write coil 7 is connected to an evaluation unit 9 via a further electrical cable 8 . The evaluation unit 9 in turn is in electrical connection with the analysis device 3 via a third cable 10 or is directly integrated into the same. Thus, the accumulating in the analyzer 3 data can be directly ponder 5 are written in the transposition, or read from the transponder 5 data can, with suitable adjustment of the analyzer 3 there trigger actions such. B. Termination of the measurement if the data read from the transponder 5 do not match the specifications in the analyzer 3 .

In FIG. 2, a glass electrode 1 is immersed in a beaker 11 with a liquid 12 to be examined. Inside the plug head 4 of the sensor 1 , the transponder 5 and within the sensor-side cable connector 6, the read / write coil is arranged. In the connecting cable 2 from the sensor 1 to the analyzer 3 , the further cable 8 shown in FIG. 1 for transmitting the trans ponder data is integrated. The cable 2 can be detachably connected to the analyzer 3 via a plug 13 .

Specific details of the head 4 of the sensor and the cable connector 6 are shown in FIGS. 3 and 4. The head 4 of the sensor 1 carries an external thread 14 , on which an internal thread 15 of the cable connector 6 can be screwed up.

Further details on the transponder 5 , the read / write coil 7 and the evaluation unit 9 of the exemplary embodiment are explained in more detail below.

The transponder cannot be destroyed by the Loosen sensor. In the present embodiment, the Transponder in a ring made of plastic welded, which is placed around the electrode and fixed with this is connected. A material became plastic selected that is temperature stable up to 200 ° C and in aggressive laboratory air not weathered.

The transponder itself is protected against impact Glass transponder, which is also in aggressive laboratory air is durable and also under harsh operating conditions is not destroyed. It is not one only readable, but also writable transponders. A distinctive one that cannot be changed by the user Identification in numerical form, as well as the exact description of the sensor and the date of manufacture are in the transponder stored. This data can only be obtained from the manufacturer written or changed.

In addition, further data is stored in the transponder, which are registered or changed during use become. These are calibration parameters with the time (date and time) of the calibration process and the time (date and time) of the last one Measurement. The transponder is also out with counters on the one hand fixes the number of calibrations hold and on the other hand the total operating time (sum the periods between the start and end of the measurements) or record the number of measurements. Only from here data for maximum operation are writable duration and / or the maximum number of measurements. Finally, data is still stored in the transponder, which provide information as to whether it is a new one  or is a reprocessed sensor. This Data can only be obtained from the manufacturer and / or from maintenance personnel can be saved or changed.

The evaluation unit 9 contains the complete electronics and software for processing the data supplied by the read / write coil 7 , so that not only new devices for chemical analysis, but also the known devices can easily be supplemented by the read / write coil and the evaluation unit.

The evaluation unit has a serial interface to Communication with the computer control software of the analysis device.

The basic functions of the evaluation unit are:

• 1. Reading out the transponder content,
• 2. Write a standardized data record, with information about Calibration data in the transponder,
• 3. Initiate the counter for calibrations,
• 4. Triggering the counter for the operating time or for the Number of measurements already carried out.

Using additional software, which, however, can only be provided by the manufacturer of the chemical analysis device, it is possible for the evaluation unit 9 to write the following data into the transponder:

• 1. Date of manufacture,
• 2. designation of the sensor,
• 3. Maximum operating time or maximum number of measurements gene,
• 4. Data (flags) for information about whether it is a new or a reprocessed sensor acts.

The evaluation unit also has a built-in one electronic clock that is neither set by the user nor  can be changed. Since it is the date and the Time is security-relevant data is one Setting or changing the clock only by the manufacturer or by the maintenance staff using an only accessible one Software possible.

A keyboard built into the evaluation unit and a corresponding display enable data to be entered and checked. The evaluated data can be documented via a parallel printer output. For retrofitting conventional analysis devices, the read / write coil 7 is cast with epoxy resin directly on the sensor-side cable connector.

The evaluation device can also be designed as a handheld reader be to z. B. with such a mobile system Control of operational analysis in a production facility to enable the chemical industry.  

Reference list

1

sensor

2nd

electrical cable

3rd

Analyzer

4th

Head of the sensor, plug head

5

Transponder

6

Cable connector

7

Read / write coil

8th

another cable

9

Evaluation unit

10th

third cable

11

Beaker

12th

liquid

13

plug

14

External thread

15

inner thread

Claims (8)

1. Device for chemical analysis, with an analysis device ( 3 ), with at least one sensor ( 1 ) which is detachably connected to the analysis device ( 3 ) via a connecting line ( 2 ), in particular with an electrochemical sensor ( 1 ), which is detachably connected to the analysis device ( 3 ) via an electrical cable ( 2 ), with a transponder ( 5 ) attached to the sensor ( 1 ), in which an individual identifier of the sensor and, if applicable, variable data relevant to the sensor are stored, and with a reading coil ( 7 ) for the transponder ( 5 ), the reading coil ( 7 ) being connectable to an evaluation unit ( 9 ) and being suitable for reading out the data stored in the transponder ( 5 ), characterized in that the sensor ( 1 ) or an inextricably connected part in the area of its detachable connection point to the analyzer ( 3 ) is inextricably connected to the transponder ( 5 ) and that the analyzer ( 3 ) or egg n connected part in the area of its connection point to the sensor ( 1 ) has the reading coil ( 7 ). 2. Device according to the preceding claim, characterized in that the transponder ( 5 ) is permanently attached to the sensor ( 1 ) at its connection point with the connecting line ( 2 ) and the reading coil ( 7 ) at the sensor-side end of the connecting line ( 2 ). 3. Device according to one of the preceding claims, characterized in that the reading coil ( 7 ) via an electrical cable connection ( 8 ) is connected to the evaluation unit ( 9 ), which in turn in particular with the analysis device ( 3 ) via a data line ( 10 ) connected is. 4. Device according to one of the preceding claims, characterized in that the sensor ( 1 ) via an electrical cable ( 2 ) and a cable connector ( 4 , 6 ) detachably connected to the analysis device ( 3 ) is an electrochemical sensor ( 1 ) and that the transponder ( 5 ) and the reading coil ( 7 ) are non-detachably integrated in the cable connector ( 4 , 6 ), in particular welded in. 5. Device according to one of the preceding claims, characterized in that the sensor ( 1 ) cannot be detached from the connecting line ( 2 ), the reading coil ( 7 ) cannot be detached from the analyzer ( 3 ) and the transponder ( 5 ) cannot be detached from a connector on the analyzer side the connecting line ( 2 ) is connected. 6. Device according to one of claims 1 to 4, characterized in that the sensor ( 1 ) is tubular and the transponder ( 5 ) arranged in a around the sensor ( 1 ) and welded to this welded plastic ring or in the plastic head of the Sensor ( 1 ) is cast. 7. Device according to one of the preceding claims, characterized in that the transponder ( 5 ) is designed as a glass transponder secured against impact. 8. Device according to one of the preceding claims, characterized in that the reading coil ( 7 ) is designed as a suitable for transmitting data to the transponder ( 5 ) suitable read / write coil ( 7 ) which change for automatic updating of the sensor-relevant changes Data is suitable, and that the trans ponder ( 5 ) is writable.