DE1917157A1 - Device for applying samples to chromatographic columns - Google Patents

Description

sDifiL.-υίηψ 4je. (Zaeef & aed (JCtiestedi Ί ν '/

Patent Attorney 42 Oberhausen, July 16, 1969

Application files: 75/151

PATENT APPLICATION

Applicant; Ceskoslovenskö akademie ved «, Praha 1 Titles Device for applying samples" to chromatographic columns

There are devices for applying samples on chromatographic Columns are to be analyzed, known in which the sample containers or sample cartridges are successively in hydraulic Circuits are switched on and connected by means of several hydraulic valves in such a way that the samples are taken one after the other reach the pillars.

The disadvantage of such devices is their complexity and the resulting expense bezw. their not full operational reliability.

There are also known sample application devices that are therein insist that individual samples intended for analysis are accommodated in small amounts of ion exchange, which between two porous plates in individual cartridges (sample containers). These cartridges, which can be used in large numbers, are brought one after the other to the place where at the beginning of each sample analysis the associated cartridge is pressed from above by the corresponding pressing element, through which the associated elution solutions are supplied by means of a pump.

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be guided. Each individual cartridge is pressed at the beginning and during the entire course of the analysis, also towards the mouth of the upper column lock. In this way, each individual cartridge becomes part of the hydraulic column circuit during the sample analysis and that during the entire analysis time. The disadvantage here is that each subsequent sample is first cartridge, the pump can be set for the start of the analysis must be seen ,, whereupon _f until the pressure at the column practically becomes zero. Then it is necessary to loosen the pressure of the pressing and raising this to the cartridge, to v / ground the replaced by another, being decreased by imports the further cartridge in place of the previous cartridge carrier _0. Then the pressing takes place of the pressing member and then can only the pump must be switched on ^ which again leads the liquid flow to the chromatographic column «. This has the following three disadvantageous phenomena. Firstly, one loses time that is required from setting up an analysis (switching off the pump) to starting an analysis again (starting the pump). Second, which is a very significant disadvantage, the ion exchange filling of the column is subjected to pressure changes ranging from the maximum operating pressure to the zero value during the cartridge exchange. In older chromatography processes, where there are reserves in the mechanical properties of the column fillings, this would not be so crucial Increase in hydraulic resistance and thus also in the pressures

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hsrvo.?geru?sn _? until they reach completely inadmissible values and the column flow can become completely blocked. This comes about especially when the column filling is subjected to changes in pressure, as is inevitably the case with the above-mentioned devices. The third disadvantage is the fact that a new analysis can not only be started immediately after the previous analysis has been completed or after regeneration and restablization, runs to the end, the next one already begins), can achieve.

The object of the invention is to eliminate the disadvantages mentioned. The invention consists in that it consists of a There is a pressing element which is arranged above the sample cartridge and is axially displaceable; in the lower end opens Channel which communicates with a flexible pipe connected to a broken channel in the body of the hydraulic switch linked ^ which contains a rotatable spindle with channels. The mentioned body of the hydraulic switch is Provided with channels so that in the lowered position both the pressing element and / and the rotatable and axially displaceable Cartridge transport device, the pressing element together with the cartridge and the other elements mentioned a bypass circuit forms with the chromatographic column and the associated liquid pump.

Since the flow through the column does not need to be interrupted when the samples are exchanged, it is possible not only to use much higher operating pressures, but a faster workflow is achieved because the new Analysis in the upper part of the column can already take place during the time in which the previous analysis is carried out in the lower part of the column is terminated. 909884/1125

These advantages are extremely important in modern analytical devices, especially in amino acid analyzers. The effectiveness of the analyzes can be increased significantly. This also applies to the automatic application of many samples for individual, successive analyzes, this effectiveness being more than twice the possibilities previously considered at all. If, for example, two hours or less are calculated as the maximum for an analysis, this time can be shortened by more than half with the device according to the invention. Except W has the advantages already mentioned, brings the invention A = yet direction the advantage that the sample cartridge still very kur ^ space of time may be loosened after removal flooding the sample (after the start of the analysis), and that this or _o each other (in the common transport device is housed) can be processed in any way, because for most of the Z @ i \ no cartridge at all needs to form part of the hydraulic circuit (even during the course of an automatic analysis) of any sample.

Some practical embodiments of the invention are shown in 4.8 of the drawing and are described in more detail below »

Show it: .

1 shows a cross section of the device, Figure 2 shows another location of the device shown in Fig _s 1

in a different functional position, also in cross section and FIG. 3, a further possible embodiment of the device _e .

The body 1 of the hydraulic switch includes a number of connecting channels and the spindle 2, which according to the in Fig »I working position shown, in which the sample is not straight the cartridge 3 is transferred into the column 4, in the indicated

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Position is swiveled out. The lever 5, the outside, is fixed is connected to the spindle 2, pivoted about 60 to the left of the vertical. In this position, the pump 6 presses the Elution solution or several solutions one after the other through the line 7, the channel 8, through the further angled channel 9 in the spindle 2 and through the further channel 10 into the connecting line Π, which leads to the upper closure of the column 4. Another angled channel 12 in the body 1, which through the flexible Line 13 is connected to the upper pressing element 14, remains in this phase without connection to the pump 6. The pressing element 14 is raised into the indicated position, e.g. by means of the spring 15, so that its lower sealing surface into which the line 13 empties, each of the cartridges 3 is switched off. The cartridges are in this position with the aid of the driver 16 in a slightly raised position so that they do not rest on the surface of the body 1 and do not make a seal with the further channel 17 form in this body. The bypass circuit 12, 13, 3, 17 is in this phase of any communication with the pump 6 and the column 4 is completely switched off.

Before the end of the analysis or its regeneration or restabilization a series of movements are carried out that end with the adjustment of individual links shown in Fig. 2, which corresponds to the position in which the sample has just been eluted or pressed out of the cartridge 3. Between the in Fig. 1 and 2 is a series of partial movements that are shown in The figures are not particularly shown and which can best be explained with reference to FIG. 1.

The elongated, disc-shaped or some other transport device 16 individual sample containers 3 can be used in the in Fig. 1

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phase shown can be rotated as desired and thus any exchange even with an analysis that is currently running allow any cartridge 3 in the entire transport device 16.

The preparation for the analysis of a new sample is done first started that the transport device 16 that cartridge 3 brings into such a position in which the cartridge axis coincides with the axis of the channel 17 and that of the pressing element 14.

^ In the further phase, the transport device 16 sinks in such a way that the lower end of the cartridge 3 comes to rest on the upper end of the channel or the associated sealing body. In the further phase, the pressing element 14 sinks against the spring force under the pressure of the automatic operating device (or also operated by hand), which is only represented by the pressing element 18 in FIGS. The contact pressure causes. by the pressing member 14, must be sufficiently large s @ in, so that the sealing means of known, not registered in d @ n figures sealing rings, inter alia, both between the pressing member 14 and the cartridge 3, as well as between the cartridge 3 and the channel 17 ensure

r is put. As a result, the bypass circuit 12, 13, 3, 17 is tightly closed and tightly closed in order to switch the flow of the elution liquid which is pressed into the column 4 by the pump 6 through this bypass circuit. This is achieved by turning the spindle 2 of the hydraulic switch into the position shown in FIG. 2, ie at 60 ° counterclockwise, the outer lever 5 being brought into the indicated vertical, downward position. The elution liquid conveyed by the pump 6 is passed on in two different ways during the transfer of the sample from the cartridge 3 to the column 4. Either the sample not absorbed on the filling, which is still in the liquid state in the cartridge

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is included? applied directly to the column 4 or the Elution liquid causes the elution of the on in a short time a small amount of the resin filler absorbs and transfers the sample this on the column 4. IN any case, this can persist in the position shown in Fig. 2, in which the bypass circuit is good must be sealed, compared to the total time that must be spent for an analysis, be very short.

3 shows another embodiment of the device according to the invention in an oblique side view. The body of the hydraulic change-over switch 19 which consists in diessm case, for example of plexiglass containing the horizontal spindle 20 as shown in FIG. 1 and 2 _O The main difference compared to the embodiment shown there consists in that the spindle 20 includes two parallel channels 21 and 22 which pass through the spindle axis 20. These channels 21, 22 are drawn in a vertical position with dashed lines, namely in a position rotated by 60 in the clockwise direction. The spindle 20 is not directly supported in the body 19, but by means of the main sealing collar 23 and another similar collar 24 of the head are tightened sealingly 28 ₀ Here, the S _c hraube 27 screwed more or less into the body of the hydraulic switch. This contains vertical and inclined cannulas 31,33,34,36 _f as shown in the inclined view in FIG. 3 _e In the basis in which the spindle 20 is in a position where the channels 2, 22 inclined are swiveled out by 60, the elution solutions run through the feed needle 29 and the channel 30 into the inclined channel 31, then through the channel 22 in the spindle in the opposite direction.

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overlying, twice broken channel 32 and further through the second channel 21 in the spindle in the inclined channel 33 and 34 and from here in the lower vertical main channel 35, to the the column 4 is connected directly with its upper closure.

All these functions are those shown in Figure 1 and ₀ 2, analog. The outer elements including the cartridges, the columns, etc. are not shown here for the sake of simplicity and clarity.

fe After turning the spindle 20 in the position in which the channels 21,22 stand vertically, the bypass circuit just described is interrupted and the elution solutions flow out of the channel 30 through the second inclined channel 36, the vertical channel 37 into the channel in the spindle and from here through the broken channel 38 in the body 19 into the exit needle 39, which is not shown with the Press element is connected. This is here as well as the cartridge shown in Fig. Ί. In Fig. 3, however, elements are drawn serve to form a tight connection between the cartridge and the channel 40. Above all, this is the elastic ring 41, which the hollow needle 42 surrounds the lower end in the body

"is screwed in. With channels 21, 22 in a vertical position, run thus the elution solutions through the bypass circuit including the

Cartridge and further through the vertical channels 40, 21 and 35 to the chromatographic column.

9098 84/1125

Claims (2)

\ DipL ~ dLng. iOe,% ZheekeneiL iMaeMedi 1 Q 1 7 1 R PATENTANWALT Anw.-Aktes 75O151, Aktenzo; P 19 17 157 "4 PATENT CLAIMS ι 1. Device for applying samples to chromatographic Columns of cartridges forming sample containers, which are attached to a movable transport device are housed, characterized in that the device consists of a There is a pressing element (14) which is arranged above the cartridge (3) and is axially displaceable, in the lower end of which a channel communicating with the flexible line (13) opens, which connects to the broken channel (12) in the body (1) of the hydraulic switch, which is a rotating spindle (2) with the channels (9, 9 '), wherein the body (1) is provided with channels (8, 10, 17) so that in lowered Position of the press element (14) and the rotatable and axially displaceable transport device (16) including the pators (3), the pressing element (14), the cartridge (3), 'the . appropriately twisted spindle (2) including the channels (9, 9 ¹ ), the flexible line (13), the channels (8, 10, 17) of the body (1) of the hydraulic switch, a bypass circuit with the chromatographic column (4) and the pump (6) forms. 2. Device according to Än Claim 1, characterized in that that it contains two channels (21, 22) extending in different planes, which are perpendicular to the axis of the spindle 909834/1125 (20) stand and a body (19) with channels ^ which in the
one position of the spindle (20) at the same time ensure the flow of the eluent to the column (4), and in the other
Position the direct eluent flow to the column (4) _# see _f where the first connection layer through the elements (29, 30 _r 36, 22, 38, 39, 13, 3, 42, 40, 35, 28) and the second through the elements (29, 30, 31, 22, 32,21 _# 33, 34 _f 35) is ensured . PATENT ADVOCATE 909 884/1125