JP3187642U - Chromatography column assembly and method for manufacturing the chromatography column assembly - Google Patents

Abstract

A chromatography column assembly that provides a sufficient seal of the chromatography column and ensures that the assembly does not leak.
A chromatography column (13) includes a tubular body (17) having an open end (18) and an inner surface (12), and a cylindrical body (6) of the chromatography column sealing device (5) is located between an upper end (7) and a lower end. It has a height H along the axis. The chromatography column sealing device 5 further includes a connection port for connecting to a fluid source for chromatographic analysis. The cylindrical body 6 comprises an outer peripheral surface 11 adapted to abut the inner surface 12 of the chromatography column 13. The cylindrical body 6 further comprises an outer peripheral surface 11 adapted to abut the inner surface 12 of the chromatography column 13 along substantially the entire height H, the outer peripheral surface 11 being It is adapted to be fixed relative to the inner surface 12.
[Selection] Figure 2

Description

  The present invention relates to a chromatography column assembly according to the preamble of the independent claim and a method for manufacturing the chromatography column assembly.

  Chromatographic columns can be used to purify individual compounds from a mixture of compounds. Traditional chromatography columns are metal, glass, or plastic tubes with diameters of 5-50 mm and heights of 50-1 m, with taps at the bottom.

  An example of a prior art chromatographic column is disclosed in US Patent Application Publication No. 200802217250 (A1).

  US 20050082213 (A1) discloses further examples of chromatography columns. The chromatography column includes a plug adapted to be received within the open end of the chromatography column.

  U.S. Patent Application Publication No. 20070175809 (A1) has three parts: a column body with an integral outlet port molded at one end, a sealing insert having an inlet port, and a downward facing that pushes the sealing insert into the column body. A chromatographic column comprising a perforated cap that provides the power of

  Chromatography columns typically include a cap that seals the top of the column. Caps used today are often provided with threads that are adapted to threadably engage with threads provided on a chromatography column. A problem with such known chromatography columns and caps is that it can be difficult to seal the column well. Furthermore, using a cap with a thread takes a relatively long time to close the chromatography column.

  Accordingly, there is a need for a chromatography column and associated sealing device that provides improved sealing between the column and the sealing device and ensures that the sealing device is fully attached to the chromatography column. It has been.

US Patent Application Publication No. 200802217250 (A1) US Patent Application Publication No. 20050082213 (A1) US Patent Application Publication No. 20070175809 (A1)

  Accordingly, it is an object of the present invention to provide a chromatography column assembly that provides a sufficient seal of the chromatography column and ensures that the assembly does not leak.

  It is a further object of the present invention to provide a chromatography column assembly with improved sealing device installation.

  A further object of the present invention is to provide a disposable sealing device and a chromatography column that are further inexpensive to manufacture and easy to use.

  The above object is achieved by the present invention as described in the independent claims.

  Preferred embodiments are described in the dependent claims.

  A chromatography column assembly according to the present invention comprises a chromatography column and a chromatography column sealing device, the chromatography column comprising a tubular body having an open end and an inner surface, the chromatography column sealing device comprising: A cylindrical body having an upper end and a lower end, the cylindrical body having a main axis A extending along the body, and a height along the axis A between the upper end and the lower end. H. The chromatography column sealing device further includes a connection port for connecting the chromatography column sealing device to a fluid source for chromatographic analysis. The connection port is a canal that extends along the axis A from the upper end to the lower end of the cylindrical body, the cylindrical body substantially on the inner surface of the chromatography column. An outer peripheral surface adapted to abut along the height H is provided. This outer peripheral surface is adapted to be fixed relative to the inner surface of the chromatography column. According to one aspect, the outer peripheral surface is fixed to the inner surface by friction. According to another aspect, the outer peripheral surface is fixed to the inner surface by a weld. According to a further aspect, the outer peripheral surface is fixed to the inner surface by friction and welds.

  Thus, by providing a chromatography column assembly according to the present invention, an improved seal between the chromatography column and the chromatography column sealing device is achieved. According to one aspect, the chromatography column does not require a thread on the column sealing device and the column body, but is sealed by friction, and the welded portion causes the chromatography column sealing device to be completely attached to the chromatography column. It will be sure to be attached to.

According to a further aspect, the present invention relates to a method of manufacturing a chromatography column assembly. This method
-Providing a chromatography column;
Placing the chromatography column sealing device such that the outer peripheral surface abuts the inner surface of the chromatography column.

  According to another aspect, the method further includes providing a weld in a region where the outer peripheral surface abuts the inner surface.

1 shows a disposable syringe barrel according to the prior art. FIG. FIG. 3 shows a chromatography column assembly according to the present invention. 1 is a side view of a chromatography column sealing device of a chromatography column assembly according to the present invention. It is sectional drawing along AA of the chromatography column sealing apparatus shown in FIG. 1 is a top view of a chromatography column sealing device of a chromatography column assembly according to an embodiment of the present invention; FIG. FIG. 6 is an elevation view of a chromatography column sealing device of a chromatography column assembly according to another embodiment of the present invention. FIG. 3 is a view showing an open state of a chromatography column assembly according to the present invention. 1 shows a chromatography column assembly according to an embodiment of the present invention. FIG.

  Next, the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 shows a disposable syringe 1 according to a conventional design. The disposable syringe barrel 1 shown in FIG. 1 includes a tube 2 having an upper opening 3 and a lower opening 4. This type of disposable syringe barrel is used as the chromatography column of the present invention.

  FIG. 2 shows a chromatography column assembly according to the present invention comprising a chromatography column 13 and a chromatography column sealing device 5. The chromatography column 13 includes a tubular body 17 having an open end 18 and an inner surface 12. The cylindrical body 6 of the chromatography column sealing device 5 comprises an outer peripheral surface 11 adapted to abut the inner surface 12 of the chromatography column 13 along substantially the entire height H. The outer peripheral surface 11 is adapted to be fixed relative to the inner surface 12 of the chromatography column 13. In one embodiment, the outer peripheral surface 11 is adapted to be fixed against the inner surface 12 by friction. In another embodiment, the outer peripheral surface 11 is adapted to be secured to the inner surface 12 by a weld 22. According to another embodiment, the outer peripheral surface 11 is adapted to be secured to the inner surface 12 by friction and welds 22.

  In FIG. 2, a weld 22 is provided adjacent to the upper edge 23 of the chromatography column 13, which weld 22 extends around the outer periphery of the cylindrical body 6, whereby the cylindrical body 6 is It is joined to the chromatography column 13. However, the weld 22 can be provided at any other suitable location on the outer peripheral surface 11. The welded portion 22 may be provided in the vicinity of or adjacent to the upper end portion 7 of the cylindrical body 6. According to another embodiment, the weld 22 covers substantially the entire height H of the cylindrical body 6 and extends around the outer periphery of the cylindrical body 6, whereby the outer peripheral surface 11 is chromatographed. Attached to the inner surface 12 of the column 13. In another embodiment, the welds 22 include a plurality of welds extending adjacent to each other around the outer periphery of the cylindrical body 6 and spaced along a height H.

  According to one embodiment, the weld 22 is made by laser welding. However, any other suitable welding technique can be used to provide the weld, such as any type of fusion welding or friction welding. The weld 22 may be a weld on the outer circumference that extends substantially the entire circumference of the cylindrical body 6, may extend partially around the cylindrical body 6, or a spot. It may be welded. In the spot welding embodiment, the number of spots on the outer peripheral surface 11 where the assembly is welded may be about 2-100.

  FIG. 3 shows a chromatography column sealing device 5 of a chromatography column assembly according to the present invention. The chromatography column sealing device 5 includes a cylindrical main body 6 having an upper end 7 and a lower end 8. The cylindrical main body 6 has a main axis A extending along the main body 6 and has an upper end. 7 and the lower end 8 has a height H along the axis A. The chromatography column sealing device 5 further includes a connection port 9 for connecting the chromatography column sealing device 5 to a fluid source (not shown) for chromatographic analysis.

  In one embodiment shown in FIG. 3, the cylindrical body 6 comprises guide means 14 for guiding the cylindrical body 6 when inserted into the chromatography column 13. As shown in FIG. 3, the guide means 14 is a chamfered portion provided at the lower end portion 8 of the cylindrical main body. This chamfered portion facilitates insertion of the chromatography column sealing device 5 into the chromatography column 13.

  According to a preferred embodiment, the connecting port 9 is arranged in a cylindrical connecting part 15 projecting along the axis A from the upper end 7 of the cylindrical body 6 as shown in FIG. The connection port 9 preferably comprises a “luer lock” connection 16 that connects the chromatography column device 5 to a chromatography instrument.

  FIG. 4 further shows that the connection port 9 is a canal 10 that extends along the axis A from the upper end 7 to the lower end 8 of the cylindrical body 6. Furthermore, the cylindrical body 6 comprises an outer peripheral surface 11 adapted to abut the inner surface 12 of the chromatography column 13, as shown in FIGS. The outer peripheral surface 11 of the cylindrical body 6 is adapted to engage the inner surface 12 of the chromatography column 13 by friction and welds 22.

  In one embodiment, the outer peripheral surface 11 of the cylindrical body 6 engages the inner surface 12 of the chromatography column 13 along substantially the entire height H of the cylindrical body 6 by friction and welds 22. Has been adapted to.

  As disclosed in the figure, the chromatography column sealing device 5 is not provided with a thread that realizes the screw connection with the chromatography column 13, that is, the chromatography column sealing device 5 is connected to the chromatography column 13 and the chromatography column 13. Adapted to connect without threads.

  According to a preferred embodiment of the invention shown in FIG. 5a, the cylindrical body 6 has a circular cross section. However, the cylindrical body 6 may have other cross sections corresponding to the cross section of the chromatography column 13, such as an elliptical, triangular or square cross section. As further shown in FIG. 5 a, the cylindrical body 6 of the chromatography column device 5 is partially hollow, where the outer peripheral surface 11 is arranged outside the outer peripheral wall 20. Further, the cylindrical connecting portion 15 includes a plurality of support means 19 extending between the lower portion of the cylindrical connecting portion 15 and the inner surface 21 of the outer peripheral wall 20. In FIG. 5 a, the chromatography column apparatus 5 includes four support means 19, but the number of support means 19 may vary depending on the dimensions of the chromatography column apparatus 5. FIG. 5 b shows another embodiment of the chromatography column device 5, where the number of support means 19 is twelve.

  According to a preferred embodiment of the present invention, the outer diameter D of the cylindrical body 5 is adapted to the inner diameter d of the chromatography column 13, as shown in FIG.

  The cylindrical body 6 is preferably made from an elastic material such as plastic. In a preferred embodiment, the cylindrical body 6 is made from polypropylene. However, other suitable materials such as rubber or other flexible materials may be used. According to one embodiment, the material of the chromatography column 13 and the cylindrical body 6 must be “weldable”, that is, these materials must be selected to be suitable for joining by welding. Don't be.

  In a further embodiment of the invention, the outer diameter D of the cylindrical body 6 is adapted to be slightly larger than the inner diameter d of the chromatography column 13. According to this embodiment, when the chromatography column sealing device 5 is inserted into the chromatography column 13, both the cylindrical bodies 6 are squeezed slightly.

  According to the present invention, the chromatography column sealing device 5 can withstand pressures of about 14 bar or more, depending on the wall thickness of the chromatography column.

  In one embodiment, the chromatography column 13 is a plastic tube, preferably a disposable syringe. However, the chromatography column 13 may be made from other suitable materials.

  FIG. 6 shows that the chromatography column sealing device 5 is introduced into the chromatography column 13 and the chromatography column sealing device 5 is attached to the chromatography column by friction, by welding, or by friction and welding. The open state of the chromatography column assembly is shown.

  To make the chromatography column assembly ready for use, the chromatography column 13 is filled with chromatography media, the chromatography column sealing device 5 is inserted from the open end 18 of the tubular body 17, and the chromatography column 13 Place at the top. Thereafter, according to one embodiment, the chromatography column sealing device 5 is fixed to the chromatography column 13 by welding. As discussed above, the chromatography column 13 and the chromatography column sealing device 5 can be joined by laser welding, in which case the weld 22 has an outer peripheral surface 11 of the chromatography column 13. This is accomplished by focusing the laser beam toward the area that abuts the inner surface 12, so that the beam changes the material from a solid to a liquid and then returns to the solid again when the laser beam is removed.

Thus, according to a further aspect, the present invention relates to a method for manufacturing a chromatography column assembly. This method
Providing a chromatography column 13;
Placing the chromatography column sealing device 5 so that the outer peripheral surface 11 abuts the inner surface 12 of the chromatography column 13.

  In one embodiment, the method further includes packing the chromatography column 13 with a chromatography medium. This filling is performed prior to the step of placing the chromatography column sealing device 5 such that the outer peripheral surface 11 abuts the inner surface 12 of the chromatography column 13.

  According to another embodiment, the method further includes providing a weld 22 in the region where the outer peripheral surface 11 abuts the inner surface 12.

  Preferably, the chromatography column assembly is pre-filled with chromatography media. In use, the chromatographic media source is connected to connection port 9. In order to prevent the chromatography medium from flowing out of the column through the lower opening 4, a frit can be introduced into the chromatography column 13 and placed at the bottom end of the column. Further, the frit may be introduced between the chromatography medium and the chromatography / column sealing device 5. Chromatography can then be performed according to a predetermined protocol, after which the chromatography column 13 can be discarded.

  According to a preferred embodiment of the present invention, the outer diameter D of the cylindrical body 6 is about 20-22 mm, preferably 20.8 mm. However, diameters in the range of 5 to 400 mm are possible. The length L of the chromatography column 13 may be in the range of 20 to 500 mm. However, other length L chromatography columns 13 are possible. The wall thickness of the chromatography column 13 may be about 0.1-10 mm, preferably 2.5 mm.

  In one embodiment, as shown in FIG. 7, the outer diameter D of the cylindrical body 6 is about 47.5 mm and the length L of the chromatography column 13 is about 215 mm. In another embodiment, the outer diameter D of the cylindrical body 6 is about 38.2 mm and the length L of the chromatography column 13 is about 151 mm. According to yet another embodiment, the outer diameter D of the cylindrical body 6 is about 32.4 mm and the length L of the chromatography column 13 is about 99 mm. In a further embodiment, the outer diameter D of the cylindrical body 6 is about 27.25 mm and the length L of the chromatography column 13 is about 90 mm.

  The present invention is not limited to the above-described preferred embodiments. Various alternatives, modifications, and equivalents can be used. Therefore, the above-described embodiments should not be construed as limiting the scope of the present invention, and the scope of the present invention is defined by the appended utility model registration claims.

Claims (20)

  A chromatography column assembly comprising a chromatography column (13) and a chromatography column sealing device (5), said chromatography column (13) having an open end (18) and an inner surface (12). The chromatography column sealing device (5) comprises a cylindrical body (6) having an upper end (7) and a lower end (8), the cylindrical body (6) Has a main axis A extending along the body (6) and a height H along the axis A between the upper end (7) and the lower end (8), the chromatography. The column sealing device (5) further includes a connection port (9) for connecting the chromatography column sealing device (5) to a fluid source for chromatographic analysis, and the connection port (9) In the chromatography column assembly, the cylindrical shape is a canal (10) extending along the axis A from the upper end (7) to the lower end (8) of the cylindrical body (6). A body (6) comprising an outer peripheral surface (11) adapted to abut against the inner surface (12) of the chromatography column (13) substantially along the entire height H; A chromatography column assembly, characterized in that (11) is adapted to be fixed against the inner surface (12) of the chromatography column (13).   The chromatography column assembly according to claim 1, wherein the outer peripheral surface (11) is adapted to be fixed against the inner surface (12) by friction.   The chromatography column assembly according to claim 1, wherein the outer peripheral surface (11) is adapted to be secured to the inner surface (12) by a weld (22).   The chromatography column assembly according to claim 1, wherein the outer peripheral surface (11) is adapted to be secured to the inner surface (12) by friction and welds (22).   5. Chromatographic column assembly according to claim 3 or 4, wherein the weld (22) is made by fusion welding, preferably by laser welding.   A chromatography column assembly according to any of claims 3 to 5, wherein the weld (22) extends substantially all around the cylindrical body (6).   The chromatography column assembly according to any of claims 3 to 6, wherein the weld (22) is spot weld.   A chromatography column assembly according to any of the preceding claims, wherein the chromatography column sealing device (5) is adapted to engage the chromatography column 13 without threads.   9. Chromatography column assembly according to any of the preceding claims, wherein the outer diameter D of the cylindrical body (6) is adapted to the inner diameter d of the chromatography column (13).   The chromatography column assembly according to any of the preceding claims, wherein the cylindrical body (6) is made of an elastic material.   The chromatography column assembly according to claim 9, wherein the outer diameter D of the cylindrical body (6) is slightly larger than the inner diameter d of the chromatography column (13).   12. Chromatography column assembly according to any of the preceding claims, wherein the cylindrical body (6) comprises guide means (14) for guiding the cylindrical body (6) when inserted. .   The chromatography column assembly according to claim 12, wherein the guiding means (14) is a chamfer provided at the lower end (8) of the cylindrical body (6).   14. Chromatographic column assembly according to any of the preceding claims, wherein the cylindrical body (6) is made from a plastic such as polypropylene.   15. Chromatographic column assembly according to any of claims 9 to 14, wherein the outer diameter D of the cylindrical body (6) is about 20-22 mm, preferably 20.8 mm.   16. The connecting port (9) according to claim 1, wherein the connecting port (9) is arranged in a cylindrical connecting part (15) projecting along the axis A from the upper end (7) of the cylindrical body (6). A chromatography column assembly according to any of the above.   17. Chromatographic column assembly according to any of the preceding claims, wherein the connection port (9) comprises a "Lure lock" connection. A method for producing a chromatography column assembly according to any of claims 1 to 17, comprising:
Providing a chromatography column (13);
Placing the chromatography column sealing device (5) such that the outer peripheral surface (11) abuts the inner surface (12) of the chromatography column (13).   -Further comprising the step of packing the chromatography column (13) with chromatography media, wherein the packing is such that the outer peripheral surface (11) abuts the inner surface (12) of the chromatography column (13). The method for manufacturing a chromatography column assembly according to claim 18, which is carried out before the step of placing the column sealing device (5). The method for manufacturing a chromatography column assembly according to claim 18 or 19, further comprising the step of providing a weld (22) in a region where the outer peripheral surface (11) abuts the inner surface (12).

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