DE4410521A1 - Separating column for gas chromatography - Google Patents

Abstract

The separating column, for gas chromatography, is a construction with at least one base plate, at least one cover plate, a geometric channel assembly in the base plate to be covered by the cover plate with gas-tight bondings between them to give the column. Gas-tight connections give a feed at one end of the channel and an outlet at the other end. Also claimed is a mfg. process, where the channel is engraved in the base plate.

Description

The invention relates to a separation column for the gasro matography.

The invention also relates to a method of manufacture a separation column for gas chromatography.

According to the generally known prior art the separation columns for gas chromatography from quartz or from glass capillaries in typical diameters of several 100 µm up to some 10 µm.

The lengths are usually between 10 m and 50 m. The ends of the capillaries are high pressure resistant in metal fitted fittings, their counterparts as metal screw connections for quick change of Pillars are formed.

The assignment of the inside of the capillaries with a targeted to the well-known analytical problem of gas chromatographic measurement selected film the Aus Exchanger substance takes place in that this substance as Solution or as steam through the capillary is pressed, the film is reflected.

This assignment increases with increasing capillary length and shrinking capillary diameter problematic and then impossible with certain dimensions.

In addition, the production of the capillaries is very expensive and only with high percentages of rejects possible.

Furthermore, the handling of the very sensitive Capillaries very difficult.

The invention is therefore based on the object in the production and handling of unproblematic separation column and its manufacturing process put.  

The solution of the invention with regard to the separation column is characterized in that
that the separation column is built in planar technology, the structure consists of

• - at least one base plate,
• - at least one cover plate,
• - in a geometric arrangement in the base plate introduced channel, which after covering the Base plate with the cover plate gives the separation column,
• - Connection elements for the gas-tight connection of the base plate with the cover plate,
• - Gas-tight connection elements for connecting one Feed to the beginning of the channel and a drain to the end of the channel.

With regard to the method for producing the separation column for gas chromatography, the solution is characterized in that a channel is introduced into a base plate in a geometrical arrangement,
that the base plate is then connected to a cover plate in a pressure-tight and gas-tight manner, optionally with addition of a pressure plate adjacent to the outside of the cover plate and the base plate, and
that pressure and gas-tight connection elements are attached to the beginning and end of the channel.

Particularly advantageous embodiments of the invention are described in the subclaims.

The advantages of the invention are obvious. By the flat, planar and robust construction is the handle exercise completely unproblematic.

The assignment with the desired film is complete the multi-part construction through common simple procedure techniques possible. There is no other Be restriction of the assignment with regard to the diameter sers and the length of the capillaries, d. H. it can be fine most structures can be occupied just as easily and safely like coarser structures.  

Another advantage is the possibility of disassembly, whereby the separation columns after a certain usage time does not have to be thrown away, but cleaned and can be reused.

In the drawing is one embodiment of many Possibilities presented.

In a base plate 4 made of quartz glass, a meandering channel 5 with a rectangular cross-section has been engraved using laser technology.

A cover plate 2 made of quartz glass has corresponding through holes 6 at the beginning and end of the channel 5 .

The inside of the base plate 4 with the channel 5 and the inside of the cover plate 2 are immersed in the immersion process with a film-shaped substrate, not shown.

The base plate 4 is reinforced by a pressure plate 3 made of stainless steel.

The reinforcement of the cover plate 2 is carried out by a pressure plate 1 made of stainless steel, which in turn has matching through holes for the through holes 6 of the cover plate 2 through holes for a Swagelok screw connection 8 .

The sealing between the pressure plate 1 and the cover plate 2 takes place in each case by an O-ring 7 .

The connection between the base plate 4 and the pressure plate 3 takes place in a not shown, generally übli cher manner.

The connection between the plate pairs of base plate 4 / pressure plate 3 and cover plate 2 / pressure plate 1 is carried out in a manner not shown in the general manner.

Claims (27)

1. separation column for gas chromatography, characterized in
that the separation column is built in planar technology, the structure consists of

• - at least one base plate,
• - at least one cover plate,
• - In a geometrical arrangement, the channel introduced into the base plate, which after covering the base plate with the cover plate results in the separation column,
• - connecting elements for gas-tight connection of the base plate with the cover plate,
• - Gas-tight connection elements for connecting a feed to the beginning of the channel and a discharge to the end of the channel.

2. separation column for gas chromatography according to claim 1, characterized, that the base plate and the cover plate outside each a pressure plate for pressure and gastight screwing have the base plate with the cover plate. 3. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the channel has a meandering geometry or is helical or twin-helical.   4. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the channel is rectangular in cross section or is square or semicircular or trough-shaped. 5. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the cover plate and the base plate on their on other side covered with a film are. 6. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the cover plate and the base plate on their on lying inside each other in the area of Channel are covered with a film. 7. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the length of the channel is between 10 m and 50 m. 8. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the length of the channel is between 1 m and 100 m. 9. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the diameter corresponding to the diameter of the Channel is between 1 µm and 1000 µm.   10. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the connections on the pressure plate for the cover plate are designed as VCR fittings. 11. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the connections on the pressure plate for the cover plate are designed as Swagelok fittings. 12. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the seal between the cover plate and their Pressure plate done by O-rings. 13. Separation column for gas chromatography after one or several of the preceding claims, characterized, that in the cover plate and / or the base plate heating directions are introduced. 14. Separation column for gas chromatography after one or several of the preceding claims, characterized, that in one or both of the pressure plate heaters are introduced.   15. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the base plate and the cover plate made of quartz glass or glass or ceramic. 16. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the two pressure plates are made of metal. 17. Separation column for gas chromatography after one or several of the preceding claims, characterized, that the two pressure plates are made of stainless steel. 18. A method for producing a separation column for gas chromatography according to one or more of claims 1 to 17, characterized in that
that a channel is introduced into a base plate in a geometrical arrangement,
that the base plate is then connected to a cover plate in a pressure-tight and gas-tight manner, optionally with addition of a pressure plate adjacent to the outside of the cover plate and the base plate, and
that pressure and gas-tight connection elements are attached to the beginning and end of the channel. 19. Process for making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the channel is engraved in the base plate. 20. Process for the preparation of a separation column for the gas chromatography according to one or more of the preceding existing claims, characterized, that the engraving by direct writing using a laser beam, e.g. B. Eximer laser beam is performed at finer structures additionally by means of laser exposure masks. 21. Process for making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the engraving is created by sandblasting, at finer structures additionally by means of spanned or photochemically applied masks.   22. Method of making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the engraving is carried out by means of an erosion electrode is also used for finer structures stretched or photochemically applied masks. 23. Method of making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the engraving with mask technique and subsequent Etching in the liquid phase or in the gas phase or in Plasma is carried out. 24. Method of making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the inside of the top plate and the base plate be covered with a substrate. 25. Method of making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the coating with the substrate by dipping through to be led.   26. A method of manufacturing a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the occupancy by means of vapor phase processes leads. 27. Method of making a gas separation column chromatography according to one or more of the preceding existing claims, characterized, that the assignment is carried out by means of centrifugal technology becomes.