CS226719B2 - Sealing joint of glass tubes inserted into one another - Google Patents

Abstract

1. A connection for the sealed fitting together of the ends of cylindrical glass tubes, wherein at the end of one glass tube (1) there is formed a socket-like accommodating part (5, 14) of rotationally symmetrical design, delimited by a reduced portion (6, 13) and receiving the end of the other glass tube (2), and wherein the circumferential surface of the accommodated glass tube (2) associated with the accommodating part (5, 14) of the accommodating glass tube (1) has a circumferentially extending seating (9) delimited axially on either side, in which seating is arranged a seal (3) made of an elastic material, preferably of Teflon, which conforms to the inner surface of the tube end of the accommodating glass tube (1), so that a vacuum-tight joint is formed between the inner surface of the seal (3) and the surface of the seating (9) and between also the outer surface of the seal (3) and the inner surface of the accommodating glass tube (1), wherein also on the accommodated glass tube (2) there is seated an additional ring (4) made of material resistant to chemicals, which ring preferably consists of silicon rubber or halogen-butyl-caoutchouc and which conforms to the inner surface of the first tube end, and wherein the surface of the seating (9) and also the inner surface of the accommodating part of the accommodating glass tube is not ground, characterised in that both the accommodating part (5, 14) of the accommodating glass tube (1) and the end of the accommodating glass tube (2) are cylindrical, that in the inserted condition of the glass tube (2) the seal (3) abuts against the reduced portion (6, 13) with its circumferential outer edge facing the accommodating glass tube (1), and in that the additional ring (4) is fitted on to the cylindrical outer surface of the accommodated glass tube (2) to retain the ends of the two glass tubes (1, 2) and abuts against the end surface of the accommodating glass tube (1) in the manner of a plug.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sealing joint for interposed glass tubes, in which a cylindrical insertion section is formed at the end of the outer glass tube, an annular space is formed in the interposed glass tube, - in which a gasket of resilient material, preferably Teflon, is accommodated - the inner surface of the leading section of the outer glass tube and the outer surface of the cylindrical end of the interposed glass tube. Sealing joints of interposed glass are known; tubes in which the ends of the two glass tubes to be joined are joined by threading at the ends of the two glass tubes; the seal element at the end of the insert tube is a seal, in the middle of which it is formed - an opening through which the inserted glass tube passes, - In this connection, the seal element and seal are made of chemical resistant _l - such as silioon seal and teflon seal .

The drawback of this joint is that the assembly is difficult because threads need to be inserted and the joints must be completely disassembled during cleaning. Such connections are used only in certain cases, for example in the introduction of capillaries and thermometers.

719

A precondition for realizing a vacuum-tight joint is a precise cylindrical formation of the joint surfaces. For this purpose, glass is usually ground *, which is another drawback of this solution.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a joint for inserting glass tubes into one another, which does not require a chemical resistant lubricant, creates a vacuum-tight glass tube connection, is inexpensive in series production, does not require grinding of mating surfaces.

SUMMARY OF THE INVENTION In a joint of the above type, the upper inwardly tapered end of the insertion section of the outer glass tube is provided with an outer flange, a retaining ring is attached to the inserted glass tube, and an annular seat is provided at the lower end of the insert. The retaining ring, made of a chemical resistant material such as silicone rubber or halogen-butyl rubber, comprises a conical portion corresponding to the bevel of the upper end of the outer glass tube and a cylindrical collar mounted on the outer flange of the outer glass tube. The annular seat is grooved at the lower end of the outer surface of the intermediate glass tube. In another embodiment, the annular seat is defined on the outer surface of the intermediate glass tube by two collars. At least one annular groove is formed on the outer surface of the seal in the latter embodiment.

The advantage of the joint according to the invention is that a perfectly sealing joint of two glass tubes is achieved. 3 -

228 719 are inserted into each other by simple mechanical means without abrading the mating surfaces n without using a connecting gauge. With the joint according to the invention it is possible to join glass tubes in large series n The joint is resistant to the harmful effects of chemicals due to the material from which its parts are made.

The joint according to the invention will be explained in more detail in two exemplary embodiments with the aid of the accompanying drawings, in which FIG. 1 shows a longitudinal section according to the invention in a first embodiment, FIG. 2 shows a longitudinal section through a joint according to the invention in a second embodiment.

In a first embodiment of the joint according to the invention, the outer glass tube 1 is enlarged at its upper end 6. Into this widened end of the outer glass tube 1 is inserted an inserted glass tube 2 which fits to the constriction. 6 of the outer glass tube 1, respectively through this constriction 6. The vacuum seal provides a seal J located in the annular space between the inner surface of the widened end% of the outer glass tube 1 and the outer surface of the inserted glass tube 2. The base material. seal £. is Teflon, so that the seal J is resistant to damage

The inner surface of the widened end 2 of the outer glass tube 1 is cylindrical, made with a very precise tolerance, so that the seal 3 can be adapted over the entire length of the widened end 6 and at every point to the blacked-free surface.

- 4 226 719 glass. J ^e seal 8 is arranged in the annular seat 9 formed at the lower end of the inserted glass tube 2. The outer diameter of the inserted glass tube 2 is slightly tapered so that the seal 3 can easily be pushed onto the inserted glass tube 2 and the end snaps into the annular seat 9th

When the glass tube 2 with the seal J has been inserted into the widened end 2 of the outer glass tube 1, the gasket hangs other narrowings 6 of the tube 1 so that the axial movement of the inserted glass tube 2 is limited. stabilizes the central position with respect to the outer glass tube 1, since a retaining ring 4 is inserted between the outer glass tube 1 and the intermediate glass tube 2, which slides onto the intermediate glass tube 2 and extends into the outer glass tube 1. at the widened end of the outer glass tube 1, a conical portion 7 extending towards the end of the outer glass tube 1 is formed. The retaining ring 6 is also made of a resilient and chemical-resistant material, preferably silicone rubber or halogen-butyl rubber. The retaining ring 4 may be conical annular, but is preferably provided with a cylindrical collar 10, as shown in FIG. 1, which abuts against the flange 7 at the end of the glass tube 1.

The joint shown in FIG. 1 can be made, for example, in the following dimensions. The total length of the widened end 8 of the outer glass tube 1 is 18 mm, of which the conical part 8 is 6 mm long at a conicity of 1:10. Inner diameter

5 226 719 of the cylindrical portion of the enlarged upper end 5 is 15 mm, the diameter of the conical portion 8 is 15.6 mm. The thickness of the outer flange is equal to the length of the conical portion 8 and is 6 mm. The outer diameter of the inserted glass tube 2 is 13 mm, the depth of the annular seat 6 is 0.5 mm, its width is 3 mm. The entire retaining ring 4 ΰ® 10 mm long, which makes it a cylindrical collar

4 mm.

his measures

The outer diameter of the cylindrical collar 10 is 20 mm, the more transparent portions extending into the glass tube. The diameter of the hole in the retaining ring 4 J ^is 12.3 and 12.7 mm. Outer diameter 2 j®

15.1 mm, internal diameter 11.9 mm and thickness 2.7 mm. As can be seen from the dimensions, the connection point between the outer surface of the seal 2 ^{and the} inner, ground surface of the widened end 2 of the outer glass tube 1 as well as the inner surface of the seal 2 ^{and the} annular seat 9 is very tight.

FIG. 2 shows another embodiment of a joint according to the invention. The joint shown in Fig. 2 differs only partially from the embodiment of Fig. 1. It is basically made of the same components. Tv _and r of the outer glass tube 1 differ from the embodiment of Fig. 1 in that the outer glass tube 1 is cylindrical and has the same diameter along its entire length. Only at one point is it provided with a constriction 13. Between the constriction 13 and the end of the outer glass tube 1 provided with the outer flange 2 there is a section 14 whose inner cylindrical surface is not ground, but is formed with the highest accuracy. The end of the lukewarm glass tube 2 provided with the seal 4 extends into

- 6 22В 719 section 14 of outer glass tube 1, not more than a constriction 13.

An annular seat 9 is also provided at the end of the inserted glass tube 2 for accommodating a gasket 2, which is not embedded in the glass wall but is defined by two annular and collar 11. This embodiment is preferable to the groove annular seat 2 because <on the inserted glass tubes 2 at this point does not weaken and is therefore not prone to rupture.

3. Two annular grooves 12 are provided on the outer surface thereof, but their number may be greater or lesser. The purpose of the grooves 12 is to increase the elasticity of the gasket 2 ^and the accuracy of the fit to the outer glass tube 1 and to further facilitate the insertion of the gasket 2. The concentric position of the outer glass tube 1 and the intermediate glass tube 2 is stabilized as in the embodiment shown in FIG. 4.

The joints according to the invention can be used in particular in chemical laboratories, where glass apparatuses are preferably used for their resistance to the harmful effects of chemicals.

Claims (5)

OF THE INVENTION 226 719 A sealing joint of interposed glass tubes in which a cylindrical insertion section is formed at the end of the outer glass tube, defined by a constriction for introducing a cylindrical end of the interposed glass tube, wherein an annular annular glass insertion section is formed a space accommodating a seal of resilient material, preferably Teflon, adapted to the inner surface of the insertion section of the outer glass tube and to the outside of the cylindrical end surface of the inserted glass tube, characterized in that the upper inwardly tapered end (5) of the insertion section the outer glass tube (1) is provided with an outer flange (7), a retaining ring (4) is attached to the inserted glass tube (2) and an annular seat (9) is formed at the lower end of the inserted glass tube (2) ) · Sealing joint according to claim 1, characterized in that the retaining ring (4), made of a material resistant to the harmful effect of chemicals, for example silicone rubber or halogen-butyl rubber, comprises a conical part (8) corresponding to the chamfer of the upper part. the ends (5) of the outer glass tube (1) and the cylindrical collar (10) mounted on the outer flange (7) of the outer glass tube (1). Sealing joint according to Claims 11, characterized in that the annular seat (9) is in the form of a groove on the outer surface of the lower end of the intermediate glass tube (2). Д. 226 719 4. Sealing joint according to claim 1/2, characterized in that the annular seat (9) is defined on the outer surface of the lower end of the intermediate glass tube (2) by two flanges (11). Sealing joint according to Claims 1, 2, 41, characterized in that at least one annular groove (12) is formed on the outer surface of the seal (3).