SU1064965A1 - Laboratory extractor - Google Patents

Abstract

1. LLBORATOR EXTRACTOR for the solid system - oil and bone, including 1 vessel for the storage vessel, extraction vessel with poristol bottom not refrigerated. I shaped the discharge of the extract, from the fact that, in order to ensure the extraction of substances from biological objects by preventing the processes of denaturation and thermal destruction by extracting at low temperatures and with the contact time of the substance with the solvent, the extractor is equipped with a shut-off the tank, the solvent supply pipe with a branch located in the shut-off tank, the as-shaped branch pipe of the extract drain is equipped with a reamer and a bubbler and its upper section is located above the branch pipe feeding solvent. (L o v: (C o SL

Description

2. The extractor according to claim 1, characterized in that the solvent vessel is provided with a compressed gas supply pipe, and the extraction vessel in the upper part with a vacuum connection pipe.

. one

The invention relates to laboratory technology, in particular to laboratory extractors for solid-liquid systems, and can be used for extraction with simultaneous reextraction of almost non-denaturated components from biological objects. ..

A laboratory extractor for a solid-liquid system is known, including a vessel for a solvent, an extraction vessel with a porous bottom, with a refrigerator, and a tube-like outlet of the extract of HRP

The disadvantage of this extractor, as well as all known perforators, is the chemical interaction of extractable substances with a solvent and temperature destruction that takes place in it, and in case of working with a biological material, the removal of biologically active substances due to the collection of recoverable compounds in a solvent vessel, where but the boiling point of the solvent is maintained in most cases above that. critical for biological prepardts, which makes it difficult to use for the extraction of a number of compounds from multicomponent biological objects.

The purpose of the invention is to ensure the extraction of substances from biological objects by preventing the processes of denaturation and thermal destruction by extracting at lower temperatures and reducing the time of contact of the substance with the solvent.

The goal is achieved by the fact that the laboratory extractor, including the solvent vessel, the porous bottom extraction vessel with a refrigerator is equipped with a shut-off tank, a solvent supply branch with a tap located in the shut-off tank, and the 7-shaped discharge branch of the extract is equipped with an expander and a bubbler and The upper section is located Btaue solvent supply pipe.

The solvent vessel is supplied with a pipe. Supplying compressed gas, and the extraction vessel with a cooler

in the upper part of the pipe connection -particle vacuum.

The drawing shows the appearance of the laboratory extractor. 5 The laboratory extractor will extract the solvent vessel 1, the solvent supply pipe 2 with the outlet 3 / equipped with the stopper 4, the extraction vessel 5 with the porous

Q bottom 6 and a fridge 7 and 5 - A type of discharge pipe from an extract 8 with a spreader 9 and a bubbler 10. Cob solvent 1 is equipped with an additional pipe 11 and a drain.

with a tap 12, and also has a compressed gas supply nozzle 13. The extraction vessel 5 with a cooler - 7 has a partial vacuum connection nozzle 14.

Laboratory extractor works

 in the following way.

The solvent vessel, through the addition pipe, is filled with a stripping phase, usually with an aqueous buffer solution, below the level

5 nozzle supply solvent. Then, through the same pipe or the upper part of the device, a solvent with a lower specific gravity is poured than in the reextraction phase in an amount larger than necessary to fill the barrier vessel. An object to be extracted is placed on the porous bottom 6.

Low pressure of compressed gas

5 entering through the compressed gas supply nozzle 13, or partial vacuum through the partial vacuum connection nozzle 14, causes the solvent to be squeezed through the patent of solvent supply 2 from solvent vessel 1 to the extraction vessel 5 and fill the latter. At the same time, the I-shaped outlet pipe of the extract 8 is closed by a column of liquid.

from the reextraction phase 1, the solvent in the solvent vessel 1 and the shut-off container 4 is reduced until liquid is ejected from the solvent supply nozzle 2 through the shut-off container 4 and the outlet 3 and the system is opened to the atmosphere. After that, due to the difference in levels, an extra: drain flow occurs: from the extraction vessel 5 through the porous bottom 6 through the discharge pipe

55 of the extract 8 with the expander 9 and the bubbler 10 and its passage through the reextraction phase in the vessel for solvent 1 due to the difference in weights. At the same time, the expander 9 of the discharge nozzle of the extract 8 retains the air remaining in this nozzle from the breakthrough into the vessel for solvent 1, which is especially important for ensuring the operation of the device when the extraction vessel 5 is not completely freed from the solvent, because phase squeezing the liquid from the vessel into the extraction vessel 5 will occur through it. The volume of fluid accumulated in the expander 9, compensates for the air pressure, and is also the volume due to the loss of solvent in solvent vessel 1 due to evaporation of the liquid in extraction vessel 5,

An increase in the total level in the vessel for solvent 1 leads to the filling of the closing container 4, after which the cycle is repeated. Since the liquid level at the same time; it increases in the solvent supply pipe and in its outlet ,. then even with a small

Glutamic acid - 4.68

100

Other nitrogen 100 containing 1.63

Including degradation and denaturation products (diketopiperazines)

Extraction Tecture, C Room

filling the shut-off tank; advancing movement of the fluid up the solvent supply nozzle relative to its movement along the outlet leads to complete filling of the shut-off tank.

The cycle time is controlled by varying the feed rate of the compressed gas, or the degree of vacuum. The depth of immersion from (water 3 into the stop tank 4. determines the filling volume of the extraction vessel 5. Since between the extract and reextraction phase the maximum equilibrium concentrations can be reached, the reextraction phase is changed, and the new batch through the drain valve 12 to the bay is reached through an additional pipe 11.

The table compares the data on the extraction of amino acids from plant tissue {1 g of crushed pea roots with n-butanoL on the extractor prototype in the proposed device. The results of the analyzes performed on ami. AAA-881 analyzer and correlated to the amino acid content in ethanol extract of 1 g of dry plant tissue of pea roots after its homogenization.

3.80

59.7

81.1

2.79

60.1

1.21

82.0. 0.097 24.0 80.8

0.48 81.2 63.7

3.48 213.63

1.36 83.14

2.09128.2

117 + 1.5

2 + 0.5

1064965 °

Carrying out the extraction with active substances by reducing the tempo of the solvent and solvent extraction steam nozzle and time.

l solvent supply pipe for contacting a substance with a solvent

a tap equipped with a shut-off capacitance-re-extraction allows

a-yu, and the introduction of nozzles for both to change the mode of operation of the device and the wire.

with saty gas or for partial vacuum gas. The device is convenient for operation in

practically prevents denatured field conditions, since the consumption of gas and thermal decomposition of biology for its work is insignificant.

Claims (2)

. 1. LABORATORY EXTRACTOR ’for the system solid - liquid, including a vessel for the solvent, an extraction vessel with a porous bottom and with a refrigerator, W-shaped pipe for draining the extract, with the fact that, in order to ensure the extraction of substances from biological objects by preventing the processes of denaturation and thermal destruction by extraction at low temperatures and reducing the time of contact of the substance with solvent, ek, the strictor is equipped with a shut-off tank, a solvent supply pipe with a tap located in the shut-off tank, an aS? -shaped extract discharge pipe is equipped with an expander and a bubbler, and its upper section is located above the supply pipe and solvent. G (5 g · ς © CD SP 2. Extractor by π. one, . of n and ^v sistent in that the receptacle "for the solvent is provided patrub com supplying compressed gas and the extraction vessel, - at the top of the vacuum connecting nozzle.