DE19512835C2 - Thermal shaker - Google Patents

Description

The invention relates to a thermal shaker according to the preamble of claim 1. This means a metal block thermostat combination with a shaker for use in laboratories for biochemical, biotechnological and medical research and diagnosis and also in the quality assurance of biotechnological productions, e.g. B. in the manufacture of pharmaceutical products.

The invention is used in the analysis of very small amounts of substance, whether in solution of volumes in the microliter range, as with the through Management of enzymatically catalyzed synthesis and cleavage cracks ions of high molecular weight substances, e.g. B. DNA and proteins, the one high temperature precision and gentle mixing of the Reaction components require, which also damage the sensitive enzyme molecules must be avoided by shear forces.

The invention can also be used to carry out protracted processes Dissolution processes and reactions of salts and high molecular weight organic substances and to carry out extractions in Microliter range where there is a slow continuous vermi solutions with different phase formation arrive, to also increase the yield.

Devices are known that contain laboratory sample vessels with both tempe and shake. DE 25 04 269 A1 is a Pipetting device in connection with a metal block thermostats and a orbital shaker described, one Pipetting, d. H. the filling of the sample vessels is program-controlled he follows.

The devices all work on the principle of a circular shaker, with which however in the aforementioned scope of the invention, namely in the microliter range, only very unsatisfactory mixes of Reaction components can be realized in the sample vessel.

The reason for this is that the surfaces in the microliter range tension of the sample liquid to form drops in the sample vessel and introduces itself through the continuously circular motion  steady state, which causes the drops, driven by the centrifugal force on the wall of the sample be pressed and remain there.

There is no mixing inside the sample liquid instead of.

With an increase in the shaking frequency, one can overcome certain molecular forces in the sample vessel, but with which the more powerful, periodically successive ones Movement impulses a defined, reproducible mastery of the Prevent unwanted shear effects in the sample.

An ordering and transmission device is also known as Vessel carrier designed for shakers and for metal block thermostats, by means of which the vessels to the shaker or the metal block thermostats can be supplied and removed in an orderly manner (DE-OS 14 98 929).

A mechanical lifting device for vessels is also known Carrier on metal block thermostats, which time-controlled a stroke aisle to lift the sample vessels out of the metal block triggers thermostats (DE 30 24 210 C2).

These known devices also make handling easier of shakers and metal block thermostats, but is also disadvantageous the fact that they do not mix gently biochemical Allow rehearsals.

It is known and common in biochemical and biotechnological Laboratories, the sample vessels out of the metal block thermostat increase and snap on with your fingers to make it special to gently mix the samples and thereby trigger a reaction.  

This manual method is very labor intensive and therefore not effective, especially with extensive test series realizable.

It also leads to an inadmissibly high temperature destabilization of the Sample material.

The object of the invention is a shaker with heated metal block for temperature control and for holding sample vessels create a gentle, gentle and effective mixing of sensitive high molecular weight biochemical substances light and especially the emergence of harmful shear forces the molecules of the substances in the test tubes avoids.

According to the invention, the object is achieved by the features of claim 1 solved. A shaker metal block thermostat is called an electromecha nisch drivable linear shaker, its stroke and its Frequency and its intensity are continuously adjustable, as well as in Time intervals, in single shock pulses and in the intensity of the individual shock pulses manually or automatically using a program circuit is controllable and its on or above the metal block thermostat located sample vessel carrier with the sample vessels independent of the agility of the metal block thermostat mechanically guided and manually or electrically using program control can be raised and locked in any stroke position.

By means of the program control, the lifting height and also the temporal Stroke sequence and the duration of the lock adjustable.

Horizontal, linear single shock pulses can occur when at a standstill metal block thermostat and raised sample container carrier also from another independent of the shaking mechanism against shock mechanics can be exercised on this.  

The holes for the sample vessels in the metal block thermostat of the Linear shakers can be chamfered, rounded or with on their upper edge be edged with an elastic plastic. With the shaker at a standstill mechanics, the metal block thermostat takes a defined means position to the raised sample container carrier, which is replaced by at least a resilient element can be locked elastically.

The electromechanical drive of the linear shaker can in particular for the generation of their intensity or their impact energy infinitely adjustable individual impulses, a tapping mechanism, the Knockers on the linearly movable and linear spring-loaded metal block thermostats or on the sample vessel carrier when the Hoist mechanism meets linearly in the same direction.

The advantages of the solution according to the invention are that using individual impulses that can be precisely defined in their impact energy, gentle reaction impulses to the sensitive high molecular weight Have biochemical substances transferred in the sample vessels.

The thermal shaker according to the invention thus allows a manual, flick each sample vial with your fingers mechanize or automate and also the impact energy exactly defined to make reproducible at any time.

It is also advantageous that the mechanization of this Flipping the sample vessels only very briefly and also only a very short distance and not even completely from the Holes in the metal block thermostat with the sample tube holder be raised.

In this way, a constant temperature of the samples in the Sample vessels better than traditionally guaranteed. This also means a higher level of security during the test leadership in the laboratory and a significant improvement in effectiveness of research work.  

The thermal shaker according to the invention is of compact design and is equipped with a control panel.

When using a processor control for temperature, it allows Time and shaker mechanics as well as for the sample vessel carrier stroke mechanics high accuracy in the reproducibility of the Operating parameters and easy operation.

The compact design allows for an easy change of location Device, e.g. B. also in a laminar box for operation under sterile conditions gung.

The invention will be explained in more detail below with two exemplary embodiments explained.

In the drawing, the metal block thermostat with sample vessel support and sample vessels of a thermal shaker is shown schematically with FIG. 1.

With Fig. 2 is shown in the drawing of the metal block thermostat of a thermal shaker with raised sample holder and sample containers.

example 1

On the electromechanically driven guide plate 4 of the thermal shaker, the metal block thermostat 3 is arranged shake-proof. In the metal block thermostat 3 there are bores conforming to the sample 1 , here for conical Eppendorf tubs.

At standstill of the agitating mechanism 6 of the thermostat 3 Metallblockther assumes a specific, fixed of resilient elements 8 means a position in which the holes are aligned in the metal block thermostat 3 with the openings of the sample containers 1 in the sample vessels carrier. 2

Independently of the linearly horizontally movable guide plate 4 with the metal block thermostat 3 located thereon, the sample vessel carrier 2 movable up and down by means of the sample vessel carrier lifting mechanism 7 is arranged above it.

The lifting mechanism 7 is designed such that the sample vessel carrier 2 rests on the metal block thermostat 3 in the fully lowered working state and is positively connected to it, the lifting mechanism 7 being uncoupled from the sample vessel carrier.

When the sample vessel carrier 2 is in the raised working state, it is positively connected to the lifting mechanism 7 and released from the positive connection with the metal block thermostat 3 .

The lifting movements of the lifting mechanism 7 take place when the shaking mechanism 6 is at a standstill.

All movement sequences can be preselected using the program circuit and automatically controllable.

To start up the thermal shaker, sample vessels 1 in the form of conical Eppendorf tubes are first introduced into the sample vessel carrier 2 .

The sample container support 2 can be located outside the thermal shaker or already in the sample container support mechanism 7 can be placed on or above the metal block thermostat 3 .

As soon as the sample container support 2 rests on the metal block thermostat 3 , it can move freely with respect to the sample container support mechanism 7 and is positively connected to the metal block thermostat.

It carries out the shaking movements of the metal block thermostats 3 located on the guide plate 4 .

The operating parameters can now be activated using a program meters, such as temperature control, stroke, frequency and time intervals for the Preselect the shaking process and the shaking process can then be carried out To run.  

In addition to this shaking program or within this shaking program, the program sequence can also be selected such that the sample vessel support 2 with the sample vessels 1 when the shaking mechanism 6 is at a standstill in the middle position by means of the sample vessel carrier stroke mechanism 7 is not completely lifted out of the metal block thermostat 3 and remains in such position and / or is locked, so that an annular gap 5 forms between them and the bore in the metal block thermostat as a result of the conically shaped sample vessels 1 .

Then a defined single shock pulse on the metal block thermostat 3 directly or on the guide plate 4 via the shaking mechanism 6 against the resilient element 8 so triggered that the upper edge of the bore in the metal block thermostat 3 briefly touches or carries along the conical wall of the sample vessel 1 and thus realizing a snap-on effect.

Example 2

In another variation of the thermal shock shaker mechanism 9 is arranged independently of the agitating mechanism 6, the pulses of which in the raised state of the sample vessels support 2 acting on this. In this state, the sample vessels themselves are wholly or partially outside the holes in the metal block thermostat 3 . By means of this snap-on effect, the manual snap-on of the sample vessel 1 is mimicked with the fingers and thus this often indispensable process for gentle reaction initiation with high-molecular, biochemical compounds is mechanized and carried out so that the temperature drop in the sample is reduced to a minimum.

By briefly lifting the sample vessels out of the Metal block thermostats on a short distance will be the resultant Temperature drop of the samples minimized.

Claims (4)

1.Thermal shaker, consisting of a linear electromechanically drivable metal block thermostat ( 3 ), a sample container support ( 2 ) arranged above the metal block thermostat ( 3 ) for receiving sample containers ( 1 ) and a lifting mechanism ( 7 ) for moving the sample container support up and down ( 2 ) with the sample vessels ( 1 ), characterized in that

• 1. by means of shaking mechanics ( 6 ) linearly movable metal block thermostat ( 3 ), also in single shock pulses and single shock intervals of definable controllable intensity with respect to frequency and amplitude, is movable so that, with the lifting mechanism ( 7 ) temporarily lifted out, the sample container carrier ( 2 ) with its deflections and by means of the upper edges of the holes, the carrier in the sample vessels abuts sample vessels located (2) (1) and so causes a Abschnippeffekt,
• 2. The sample vessels carrier (2) is positively connected by means of a independent of the metal block thermostat (3) arranged lifting mechanism (7) is abbeweglich above the metal block thermostat (3) and wherein the movement mechanism (7) or loosely movable with the sample vessels carrier (2) , and the sample holder ( 2 ) in the lower min. The position of the lifting mechanism ( 7 ) on the metal block thermostat ( 3 ) can be positively and freely moved by the lifting mechanism ( 7 ) so that the sample container support ( 2 ) is decoupled from the lifting mechanism ( 7 ) in the lowered state and positively connected to the metal block thermostat , and in the raised state with the lifting mechanism ( 7 ) is released from the positive connection with the metal block thermostat ( 3 ),
• 3. the lifting mechanism ( 7 ) or the stroke of the same with the sample holder ( 2 ) between an upper max. Position and a lower min. Position is infinitely lockable, with the lifting movement of the lifting mechanism ( 7 ) taking place when the shaking mechanism ( 6 ) is at a standstill and the lifting height can be set as desired within a defined range;
• 4. the metal block thermostat ( 3 ) is locked in its shaking plane by means of resilient elements ( 8 ) in a defined central position,
• 5. the movements of the metal block thermostat ( 3 ) and the lifting mechanism ( 7 ) can be controlled manually or automatically by means of a program control.

2. Thermoshaker according to claim 1, characterized in that the horizontal linear single shock pulses when the metal block thermostats are stationary ( 3 ) and raised sample vessels ( 1 ) by means of a shaking mechanism ( 6 ) independent impact mechanism ( 9 ) on the sample vessel carrier ( 2 ) can be exercised are. 3. Thermal shaker according to claim 1 and 2, characterized in that the holes in the metal block for the sample vessels ( 1 ) in the metal block thermostat ( 3 ) of the linear shaker are chamfered on their upper edge, rounded or edged with an elastic plastic. 4. Thermoshaker according to claim 1 to 3, characterized in that the individual impact pulses acting on the metal block thermostats ( 3 ) are generated by an integrated tapping mechanism in the shaker mechanism ( 6 ) or electromagnetically.