CS261739B1 - Vacuum distilation head - Google Patents

Abstract

Vacuum distillation attachment from a vertical flexible tube fitted to upper part with short glass capillary a in the middle of the seal, with the vertical flexible tube and short glass capillary they are coaxially placed in another tube, on which is placed above the seal olive and pull the nut in which it is threaded a support tube is mounted.

Description

The invention relates to the construction of an adapter for introducing gas into liquids or mixing liquids with a stream of air or other gas in vacuum distillation.

At present, vacuum glass distillation preferably uses all-glass capillaries extending from the outside of the apparatus into a boiling flask, permitting a steady stream of tiny gas bubbles below the liquid level under vacuum. This stream of bubbles rising from the bottom upwards causes the liquid to be mixed, and the use of this phenomenon has found application in mixing liquids subjected to vacuum distillation against local overheating. The capillary itself is connected to the boiling flask by means of a rubber stopper, an elastic mass hose or a glass joint. The connection to the flask can be extended by means of attachments or even by the radiator itself. However, the proper functioning of the capillary is to place its tapered end at the lowest point at the bottom of the flask. In order to meet this condition, flasks with a throat whose axis is directed towards the center of the bottom or flasks with a dedicated dedicated capillary tube used exclusively for vacuum distillation are used for vacuum distillation. The length of the attached capillary is required in the construction of the vacuum distillation apparatus for each flask size used. Since the capillary is always contaminated or clogged with the distillation residue after the vacuum distillation has ended, it is necessary to clean the capillary or, usually because of the difficulty of cleaning, replace it. The glass capillary is very fragile and easily breaks during handling. The introduction of gases into the reaction mixture is limited by a similar problem to the positioning of the capillary, and thus requires such flasks or inserts on the flask or apparatus, the axis of which always points towards the center of the bottom.

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The aforementioned disadvantages of simple means for introducing or mixing gases in vacuum distillation are eliminated by the vacuum distillation adapter according to the invention. Its essence lies in the fact that it consists of a flexible tube of chemically resistant material which is provided with a short glass capillary pushed on at its upper end. The flexible tube is tightly connected to the coupling by an elastic seal and secured by a fitting, a tightening nut and a support tube. The portion of the flexible capillary tube located above the seal is encapsulated by means of a vertical glass tube against self-weight bending. The space around the mouth of the capillary can be airtightly connected to the gas supply hose by means of an olive.

The function of the extension can be changed as required either for introducing gas with the short capillary removed or for gas mixing with the capillary. The flexible tube adapter can be used for these functions even if the inlet or inlet pipe does not have an axis pointing towards the center of the bottom of the cooking flask. The extension according to the invention is therefore universal since its length can be easily adjusted by moving the elastic seal according to the need and size of the flask. The flexible tube adapter according to the invention can be easily cleaned since the distillation residue can only contaminate the flexible tube and not the capillary. A flexible tube having a larger internal diameter can be easily mechanically cleaned. The adapter according to the invention can be connected to all types of NZ joints by means of reducers. The flexible tube adapter can also be used to stir a liquid under vacuum distillation of an inert gas. In addition, the elastic tube used ensures mechanical resistance of the device during handling or accidental contact with the propeller of the mechanical stirrer when the extension has been used as a gas introducer. The adapter assembly can advantageously be combined with modern laboratory accessories such as GL screw connections and conical joint joints.

BRIEF DESCRIPTION OF THE DRAWINGS The invention and its effects are explained in more detail in the accompanying drawings, in which: FIG. 1 shows a schematic front view of a vacuum distillation extension according to the invention with a flexible tube with one GL joint and FIG.

261 739 is a schematic front view of an analogous vacuum distillation extension according to the invention with two GL joints arranged perpendicular to each other. Ohr. 3 is a schematic front view of a vacuum distillation extension according to the invention with a flexible tube incorporated into a fractional vacuum distillation apparatus. Giant. 4 schematically shows a front view of a vacuum distillation extension according to the invention with a flexible gas flow tube. The operation of the apparatus of Figs. 4 and 4 does not change if the attachment of Fig. 2 is used instead of the attachment of Fig. 1.

The extension according to the invention consists, according to FIG. 1, of a vertical flexible tube 1, for example having an internal diameter of 1 mm, of polytetrafluoroethylene, at the upper end of which a short glass capillary 2 with a suitable internal diameter of 0.02 mm is tapered. The vertical flexible tube 1 is tightly connected to a connecting member 2 formed, for example, by an NZ-14 joint, by means of a chemically resistant elastic seal 4. This seal 4 is fastened from above by a screw 2 such as GL-14, a tightening nut 6 and a latch 9. the gasket 4 supported by a support tube 7, firmly attached above the coupling 2 »

A portion of the vertical flexible tube 1 with the capillary 2 located above the seal is encapsulated by another tube 8 having an outer diameter equal to the inner diameter of the olive 9 into which it is inserted.

Another example of a solution with the same function is shown in Fig. ₀

2. The extension consists of a vertical flexible tube 1 at the upper end provided with a short glass capillary 2 which is tightly threaded through an elastic seal 4. This seal is supported from below by a support tube 7, fused in a wider tube 16 and terminated by a connecting member 3. The seal 4 is retracted from above by a further tube 8 by means of a collar 11, a fitting 2 for example GL-14, another seal 10 and a tightening nut 6. The other tube 8 is sealed in its upper part and has a hole 15 in the wall . An auxiliary tube 17 is provided perpendicularly from the auxiliary tube 16, provided with a further screw connection 12 _{with an} auxiliary seal 11, an auxiliary tightening nut 14 and an olive 9.

FIG. 3 shows an adapter according to the invention, supplemented by a further 4,261,739 additional elements, the whole of which is an example of a apparatus for fractional distillation under vacuum. The adapter according to the invention is connected via its connecting member 3 to the side tube extension 18 here, to the distillation flask 19 provided with a control thermometer 20 and a contact thermometer 21, a distillation column 22, a column head 23 and an auxiliary thermometer 24 26 and collecting flask 27.

Fig. 4 shows an extension according to the invention built into a gas purging apparatus. For this function being in the spacer according to the present invention removed short glass capillary 2, and for example shown in Figure 1 also ₀ 8. No vertical tube of flexible tube 1 positioned over the gasket 4 is to be inserted into the gas supply pipe 29 through eartips 2 · P ° of Example According to FIG. 2, a similar connection can be made by removing the short glass capillary 2 and attaching the gas supply hose 29 to the olive 9. The extension according to the invention is connected via a connecting member 2 to the side tube extension 18, distillation flask 19 containing UV irradiation lamp 28 and control thermometer 20. A cooler 23 is provided at the upper end of the side tube extension 18 with an additional lip 39.

The device according to FIG. 1 operates in such a way that air enters another tube 8 or gas, respectively, from the inlet trowel mounted on the olive 9 after removing the other tube 8, passes through a short glass capillary 2 into a vertical flexible tube 1 which is secured against bending tube 8a extends through the other end, which is inserted below the level of the distilled liquid in the distillation flask 19 »

According to FIG. 2, the device according to the invention operates in such a way that air or inert gas enters through the aperture 13 through a further tube 8, from where its flow is reduced by a short glass capillary 2 and longer into the vertical flexible tube 1 into which the lower end of the vertical flexible tube 1 is inserted. The connection to the apparatus is provided by the coupling member. For the operation of the gas purging extension, the device operates in the same manner after removing the short glass capillary 2.

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With regard to the wide use of the flexible tube adapter according to the invention, simplicity, versatility, durability, versatility and, finally, ease of maintenance are in comparison with the existing types of vacuum distillation mixing apparatus or fixed tube blower tube. The flexible tube adapter according to the invention will be applicable in all operational, research and development laboratories of the chemical industry for the distillation of liquids which decompose at normal pressure at the boiling point. It is used in companies engaged in the processing of oil and petroleum products, the fat and cosmetics industry, pharmaceutical production and preparation of agrochemicals. The adapter according to the invention will also be useful in school chemical laboratories as a teaching aid for demonstrating the separation of low volatiles by vacuum distillation.

Claims (1)

SUBJECT OF THE INVENTION An extension for vacuum distillation, characterized in that it consists of a vertical flexible tube (1) provided with a short glass capillary (2) on its upper part and a gasket (4) in its middle part, the vertical flexible tube and short glass capillary (2) are coaxially arranged in a further tube (8) on which is located above the seal (4) an olive (9) and a tightening nut (6) in which a support tube (7) is supported by a screw connection (5). 4 drawings