DE3913632C2 - Titration device - Google Patents

Description

The invention relates to a titration device according to the preamble of claim 1.

When performing titrations, especially when routine implementation, as is the case with quality control len, e.g. B. in the food industry, in the clinical Chemistry or environmental protection, it is frequently necessary, changing titrants and / or change de use doses of titrants. It grows the outlay on equipment usually increases greatly if for each Titrant a separate dosing device is required. To reduce the expenditure on equipment, for example in CH-PS 590 689 proposed an interchangeable burette a plurality of pallets to form a single drive unit ten is provided, each of which is a storage bottle and carries one of these associated buret cylinders. The palet are pushed onto the drive unit and this is coupled to the delivery piston in the burette cylinder. It was not only the burette that had to be changed with every burette cylinder but also the storage bottle and velvet. Pallet out be exchanged. This was with a considerable amount of time and ar connected effort and required, due to the Kon structure of the palette, a limitation of the volume of the Storage bottle. To remedy these disadvantages, according to DE-OS 29 29 307 an interchangeable burette with a drive unit and a plurality of optionally connectable to it Cylinders developed with each cylinder having its own front Storage container with a recess for the Zylin which is assigned.

However, these known interchangeable burettes are limited Scope for the routine execution of titrations suitable and cannot be used for the simultaneous execution of  several different titrations can be used.

So-called automatic titrators are also known rapid and routine execution of a large number of same allow like titrations and where the need manual intervention is kept to a minimum. This Vending machines show the titration result digitally and / or analog or with a printer to record the results nisse equipped. They can also be designed that the course of the titration is tracked on a monitor can be. Often these machines are also with Mikropro cessors for storing method-specific parameters, Calibration values and sample information equipped.

It is also known to have two or more such titrators Automatically assemble in one device to carry out to enable several different titrations side by side lichen. Each component of the device represents itself a complete one, for a specific specific titration method designed titration device with a fixed number of drives, dosing units, detectors and sample stations It follows from this that a combination of such compo is based on the originally made choice and only for the implementation of those titration methods, for which the selected components are designed can be. An adaptation to changing needs is only difficult and can practically only from the manufacturer of the Ge advised, but not by the user.

Furthermore, DE 33 15 045 A1 describes a multi-channel analyzer Distribution and measurement of liquid samples after construction box principle consisting of individual analysis modules and a common one superordinate control, measurement and evaluation module is constructed, be knows. An analyzer in which the individual workstations a modular system that can be combined in any way is also in the DT 25 01 054 B2 specified.

The object of the invention is therefore to create a titration device fen, which allows several titrations to be carried out simultaneously allowed and without any difficulty from the user to the the respective requirements can be adjusted.  

The object is achieved according to the invention in the ning part of claim 1 specified further training of be known titrators solved.

Due to the modular structure, d. H. the formation of the dosing unit, the drive unit and the detector unit as Modules, it is achieved that these are made without difficulty can be exchanged and replaced. Because the controls if modular, and a control module for this is provided, which in turn is interchangeable and in each any assignment can be combined with the modules adapt to the respective needs without any problems and without the need to use special tools, by any user of the titration device. It requires only a few simple steps to the titration tel, its dosage and / or the titration method vary.

The dosing unit is usually a, if necessary kali brier, glass or plastic cylinder in which a piston is slidably arranged. The cylinder can be easily Way over hose lines on the one hand with a supply vessel for the titrant and on the other hand with the samples station can be connected. To move the piston in the Burette cylinder is for example one with the piston tied piston rod provided, which in turn with the An drive unit, e.g. B. a pulse controlled stepper motor, ver is binding. The connection of the dosing unit to the An drive unit can be simply put on the burette cylinder on the drive unit and snap the Piston rod are accomplished.

The central control unit of the titration device according to the invention provides the advantage that the function and compatibility of the  individual modules and control modules independently monitored by the device become. In this way, sources of error can be identified right from the start exclude.

Special training of the titration device of the aforementioned Art are described in claims 2 to 8.

The training according to claim 2 allows the same time Perform three different titrations without the need to carry out time-consuming manipulations.

The training according to claim 3 enables a particular or simply change the titration method or the user different titrants or titrants different concentrations. About the titration method or it is only necessary to replace the titrant a simple switch.

The common network connection for all (internal) modules and Control modules according to the training according to claim 4 on the one hand enables particularly simple monitoring the power supply and on the other hand by disabilities avoid a lot of cables.

The training according to claim 5 enables the same early or consecutive execution multiple titrations in one operation, without the necessary a suitable control module for each titration Device.

The training according to claim 6 enables a loading more useful, the device also retrospectively its respective needs adjust by changing the control module for another or can program an additional titration method.  

The training according to claim 7 enables a user zer simple and easy monitoring of all functions the device, the functionality of the individual Modules and their interaction as well as the process of the individual titrations.

The training according to claim 8 offers the possibility a versatile extension of the program. So in Be if necessary, for example, a Karl Fischer Titra at the same time tion. There is also the option to turn off management of gravimetric determinations. The connection with measurement data recording devices enables the user to record the results obtained, e.g. B. for documenta tion purposes, or graphically. The connection with external data processing systems, for example Communication between different research institutions or operational inspection or monitoring facilities or with process control systems.

Embodiments of the titration device according to the invention are described below with reference to the drawings, show:

Figure 1 is a block diagram of the titration device.

FIG. 2 shows a drive unit in perspective view;

Figure 3 is a partial view of a dosing unit in a perspective view.

Fig. 4 is a control module with an associated IC socket in perspective view;

Fig. 5 is a titration device in perspective Dar position;

Fig. 6 is a partial view of the titration device of FIG. 5 in a perspective view.

Fig. 1 is a block diagram showing a titrator 2 with a metering unit 4, which is connected via a coupling member 6 to a drive unit 8. The dosing unit 4 is connected on the one hand to a storage vessel 10 via a first hose line 12 and via a second hose line 14 to a sample station 16 , which is coupled to a detector unit 18 . The detector unit can be, for example, a pH or redox electrode, an ion-sensitive electrode or an optical sensor. The drive unit 8 and the detector unit 18 are connected to a control module 20 via lines 22 and 24 .

Fig. 2 shows a drive unit 26 which can be connected via a flat cable 28 by means of a coupling 30 and a plug 32 to a voltage source (not shown). The plug 32 is fastened in a base plate 34 . Furthermore, the base plate 34 has electronic power switch 36 for selectively actuating a 1st drive motor 40 and a 2nd drive motor 42 as well as stop sensors 38 . The upper end of the drive unit 26 forms an upper housing part 44 , which is connected to an opposite lower housing part 46 via spacers 48 a related party. The drive unit 26 also has a support bracket 50 which carries a connecting shaft 52 . In the upper housing part 44 there is a recess 54 for producing a screw connection and a push rod 56 for connecting the drive unit 26 to a metering unit, e.g. B. the one shown in FIG. 3, is provided.

In addition, the drive unit 26 has a driver 58 , via which the drive motor 42 with a burette valve within a metering unit, for. B. that is shown in FIG. 3, can be connected. For attachment, a locking screw 60 is arranged on the end face of the drive device 26 .

Fig. 3 shows a dosing unit 62 , of which, for reasons of clarity, only the most important components are shown. The dosing unit 62 comprises a cylinder 64 and a piston 66 arranged displaceably therein. This can be connected to the first drive motor 40 of the drive unit 26 by means of the push rod 56 , as shown in FIG. 2, and can be driven by the program in the operating state via a gear, not shown in the figure. The cylinder 64 and the piston 66 are surrounded by a light protection tube 68 with a viewing window 70 . The attachment of a light protection tube is particularly recommended in cases where a light-sensitive titrant is used. The lower end part of the cylinder 64 and the light protection tube 68 are fastened on a burette carrier 72 . The upper end is formed by a burette hood 74 , in which a burette valve (not shown in the figure) with an associated drive is accommodated and which is equipped with an anti-kink tube 76 for a first hose line and an anti-kink tube 78 for a second hose line. The Bü rettenhahn is connected via the driver 58 of the drive unit 26 , as shown in FIG. 2, and a Ge not shown in the figure gear with the second drive motor 42 of the drive unit 26 and is driven by this in the operating state. In addition, at the lower part of the Bürettenhaube 74 is a threaded ring 80 which disassembly of the hood 74 save Bü accommodated cock allows for cleaning purposes, is provided. In addition, the burette hood has a label 82 for identification.

Fig. 4 shows a control module 84 with the corresponding IC socket 86th To attach the control module 84 to the IC socket 86 , it is pushed onto the socket 86 in the direction of arrow 88 . The base 86 has a 1st tab 90 and a 2nd tab 92 . Both tabs snap into place by pressing down. In addition, the control module 84 has a notch 94 which indicates the direction in which the individual control modules have to be inserted in the case of several. The IC socket has connection elements 96 on its end region facing away from the control module 84 .

Fig. 5 shows a titration unit 98 having a housing 100. In the device shown in the present example, a total of five places 102 are provided for accommodating titration units formed from the drive unit and metering unit. To protect free spaces 102 , covers 104 are provided, which are expediently to be fastened by screwing on. In the present case, a space 102 is equipped with a metering unit 106 , which is placed on a drive unit (not shown in the figure) and fastened by means of a locking screw 108 . The dosing unit 106 is connected to a supply vessel 110 for a titrant via a suction line 112 . The suction line 112 is guided through a kink protection tube 114 through a head part 116 of the storage vessel 110 . The head part 116 has a further anti-kink tube 118 through which a second suction line can be introduced if necessary. A titration arm 120 is fastened to the housing 100 by means of knurled screws 122 . The titration arm 120 carries a titration vessel 124 which is fastened by means of a threaded ring 126 . A cover 128 for the titration vessel 124 is embedded in the titration arm 120 . Through the cover 128 , a stir bar 130 is inserted, at the lower end of which a propeller stirrer 132 is fastened within the titration vessel 124 . The cover 128 is provided with openings 134 . Through one of the openings 134 , a hose line 138 , which is connected to the dosing unit 106 , is introduced into the titration vessel 124 through an anti-kink tube 136 . The opening of the kink tube 136 dia gonal opposite opening is provided for receiving a serving as the detector probe, as indicated by an arrow 140th The housing 100 also has a display 142 from which the information necessary for monitoring the titration curve can be read. In addition, control buttons 144 for operating the device and a keyboard 146 by means of which the individual modules and control modules can be controlled are provided.

FIG. 6 shows part 148 of the titration device according to FIG. 5 in a schematic illustration. The device part 148 has a housing 150 with free spaces 152 for receiving drive units or formed from the drive and metering unit trier units. In one place of the housing, a drive unit 154 is mounted, the structure of the drive unit 154 corresponding to that of the drive unit 26 shown in FIG. 2. A driver 156 is provided for connection to the burette valve of a metering unit, not shown in the figure. In addition, the housing 150 has recesses 158 with an internal thread for fastening covers, corresponding to the covers 104 in FIG. 5. Knurled screws 160 are also provided for fastening a titration arm. If necessary, two titration arms can also be attached to the housing 150 .

In its configuration, the control unit corresponds to Vor part of the in conjunction with the present application related patent application no. . . . . . . . . described.  

Reference list

2nd

Titration device

4th

Dosing unit

6

Coupling link

8th

Drive unit

10th

Storage jar

12th

1

, Hose line

14

2nd

, Hose line

16

Rehearsal station

18th

Detector unit

20th

Control module

22

management

24th

cables

26

Drive unit

28

Flat cable

30th

clutch

32

plug

34

Base plate

36

Power switch

38

Stop sensor

40

1

, Drive motor

42

2nd

, Drive motor

44

upper housing part

46

lower housing part

48

Spacers

50

Carrier console

52

Connecting shaft

54

Recess

56

Push rod

58

Carrier

60

Locking screw

62

Dosing unit

64

Burette cylinder

66

piston

68

Light protection tube

70

Viewing window

72

Burette holder

74

Burette hood

76

1

, Anti-kink tube

78

2nd

, Anti-kink tube

80

Threaded ring

82

etiquette

84

Control module

86

IC socket

88

arrow

90

1

, Tab

92

2nd

, Tab

94

score

96

Connecting element

98

Titration device

100

casing

102

Free spots

104

Covers

106

Dosing unit

108

Locking screw

110

Storage jar

112

Suction pipe

114

Anti-kink tube

116

Headboard

118

Anti-kink tube

120

Titration arm

122

Thumbscrew

124

Titration vessel

126

Threaded ring

128

cover

130

Stir bar

132

Propeller stirrer

134

Openings

136

Anti-kink tube

138

Hose line

140

arrow

142

display

144

Control buttons

146

keyboard

148

Device part

150

casing

152

Free spots

154

Drive unit

156

Carrier

158

Recess

160

Thumbscrew

Claims (8)

1.Titration device with at least one sample station, at least one dosing unit, at least one drive unit for the dosing unit, at least one detector unit for a measurement variable to be tracked in the operating state, and a central control unit, characterized by a modular structure such that the dosing unit ( 4th ), the drive unit ( 8 ) and the detector unit ( 18 ), each individually designed as interchangeable and freely combinable with other units, where all three units ( 4 , 8 , 18 ) together form a titration unit that each titration unit a, for at least one predetermined titration method programmed control module ( 20 ) is assigned, and that the individual modules and the individual control modules are interchangeable independently and their mutual assignment is freely selectable, with the individual modules including the control modules, of which central control device automatically recognized t and be monitored. 2. Titration device according to claim 1, characterized in that it for the inclusion of at least two titration units is designed. 3. Titration device according to claim 1 or 2, characterized in that it is designed for the reception of at least one additional union metering unit ( 4 ). 4. Titration device according to one of claims 1 to 3, characterized characterized in that there is a common network connection for has all modules and control module. 5. Titration device according to one of claims 1 to 4, characterized in that each control module ( 20 ) contains at least one programmable module which contains a plurality of control sequences for different titra tion methods stored. 6. Titration device according to one of claims 1 to 5, characterized characterized in that there is at least one control module indicates which read-write memory modules contain, in which are subsequently specified via a module with interfaces fish titration methods can be enrolled. 7. Titration device according to one of claims 1 to 6, characterized characterized in that the central control unit with a Display device for sending optical or acousti is equipped with signals for one User recognizable the functionality of the modules is. 8. Titration device according to one of claims 1 to 7, characterized characterized in that it is a module with at least one Interface for connection to at least one external NEN module contains, such that it, for example, with white titration devices, scales, measurement data storage, measurement data tenrecording devices, such as printers or plotters, and communicate external data processing equipment can.