WO2011091895A1 - Sealing sleeve body - Google Patents

Abstract

The invention relates to a sealing sleeve body (1) for the sealing connection of two fluid-conducting components having an inner sleeve wall (2) and an outer sleeve wall (3) surrounding said inner sleeve wall, wherein the outer lateral face (4) of said outer sleeve wall is designed at least in some areas to rest sealingly against one of the two fluid-conducting components. Between the outer sleeve wall (3) and the inner sleeve wall (2) is a middle sleeve wall (7), the inner lateral face (8) of which is designed at least in some areas such that the other of the two fluid-conducting components can rest sealingly against same. The middle sleeve wall (7) and the outer sleeve wall (3) are flexibly connected to one another. The middle sleeve wall (7) and the inner sleeve wall (2) are connected to one another. This results in a sealing sleeve body in which the probability of leaks occurring is reduced.

Description

 Sealing sleeve body

The invention relates to a sealing sleeve body for sealingly connecting two fluid-carrying components.

Such a sealing sleeve body is known from DE 1 1 2006 001 148 B4. For sealing a plugged into the sealing sleeve body fluid-carrying component against the sleeve body an additional peripheral seal is provided there. DE 20 2007 012 286 Ul shows a plug-in fitting for a plastic-containing pipe.

It is an object of the present invention, a sealing sleeve body of the type mentioned in such a way that the probability of occurring leaks is reduced.

This object is achieved by a sealing sleeve body with the features specified in claim 1.

According to the invention, the sealing sleeve body has a total of three sleeve walls lying inside one another, namely an inner sleeve wall, an outer sleeve wall.

Sleeve wall and a middle sleeve wall lying between these two sleeve walls. The use of an additional, the sealing sleeve body separately designed peripheral seal, as in DE 1 1 2006 001 148 B4 is not required. This saves manufacturing costs and assembly costs. If the sealing sleeve body provides the sealing connection between the two fluid-carrying components, a wedged arrangement of the two fluid-carrying components relative to one another is possible owing to the flexible connection between the central sleeve wall and the outer sleeve wall. visually not aligned with the longitudinal axes of cooperating with the sleeve body sections. Such a canted arrangement does not lead to leakage problems within the flexibility range of the connection of the central sleeve wall to the outer sleeve wall.

A sealing blind groove according to claim 2 leads to an additional sealing tolerance of the sealing sleeve body even with non-planar end wall of the immersed in the sealing blind groove fluid-carrying component. Integral transitions according to claims 3 and 4 lead to a structurally simple and in particular inexpensive to produce sealing sleeve body. The sealing sleeve body can be made entirely as a one-piece component. The sealing sleeve body can be manufactured as an injection molded part. Of the

Sealing sleeve body may be made of plastic and in particular of polyethylene.

Ratios of Axialdimensionen according to claims 5 and 6 have been found to be particularly suitable. An inner sleeve wall with a low axial extent according to claim 5 saves material. An axially extending middle sleeve wall, which projects beyond the outer sleeve wall according to claim 6 leads in a tilted arrangement to defined investment conditions of the central sleeve wall on the outer sleeve wall.

Sealing ribs according to claim 7 have been found to be particularly suitable for the sealing effect of the outer surface of the outer sleeve wall. A stop collar according to claim 8 allows a defined arrangement of a fluid-carrying component to the sealing sleeve body. A bell-shaped extension according to claim 9 has been found to be advantageous for the sealing effect of the sealing sleeve body in particular in connection with the use together with fluid-carrying plastic components, for example with plastic bottles. A Reduzierabschnitt according to claim 10 improves a sealing effect of the inner circumferential surface of the central sleeve wall.

Embodiments of the invention will be explained in more detail with reference to the drawing. In this show:

1 is a plan view of an embodiment of a sealing sleeve body for sealingly connecting two fluid-carrying components. Figure 2 is a section along the line II-II in Fig. 1.

Fig. 3 is a comparison with Figures 1 and 2 slightly reduced, isometric perspective view of the sleeve body. Fig. 4 to 6 to Figs. 1 to 3 similar representations of another

 Execution of a sealing sleeve body; and

Fig. 7 shows the detail VII of Fig. 5 in an enlarged view Fig. 1 to 3 show an embodiment of a sealing sleeve body 1 for sealingly connecting two fluid-carrying components.

The inner sleeve wall 2 is surrounded by an outer sleeve wall 3. An outer circumferential surface 4 of the outer sleeve wall 3 is at least partially for sealing engagement with one of the two fluid-conducting components, for example on inner neck of a glass bottle, formed. For this purpose, the outer lateral surface 4 has a plurality, in the illustrated embodiment three, of circumferential sealing ribs 5. The sealing ribs 5 are each integrally formed on the outer sleeve wall 3.

Furthermore, the outer sleeve wall 3 has a likewise integrally formed on this, radially expanded stop collar 6 for abutment against an end edge, for example on the bottleneck, which then tightly against the outer surface 4 adjacent fluid-carrying component.

Between the outer sleeve wall 3 and the inner sleeve wall 2 is a central sleeve wall 7 of the sleeve body 1. The three sleeve walls 2, 7 and 3 are arranged coaxially with each other. An inner circumferential surface 8 of the central sleeve wall 7 is at least partially formed for sealing abutment against the other of the two fluid-carrying components, which are to be sealingly connected to one another via the sleeve body 1. For this purpose, an inner diameter of the inner circumferential surface 8 is reduced in a reducing section 9 with respect to the other inner diameter.

The central sleeve wall 7 and the outer sleeve wall 3 are flexibly in one piece with each other via an end-side outer connecting bridge 10 connected. The central sleeve wall 7 and the outer sleeve wall 3 thus go in one piece into each other. The connecting bridge 10 is arranged axially opposite to the stop collar 6. Also, the central sleeve wall 7 and the inner sleeve wall 2 are integrally connected to each other via a further, inner connecting bridge 1 1, which is adjacent to the above-mentioned connecting bridge 10. This connection is also flexible. An axial strength of the connecting bridge 1 1 is greater than an axial strength of the connecting bridge 10. The inner sleeve wall 2 and the central sleeve wall 7 define together with the inner connecting bridge 1 1 a circumferential sealing bag groove 12 for additional sealing receiving the other of the two fluid-carrying components, for example for sealingly receiving a dosing syringe. The sealing blind groove 12 is thus formed between the inner sleeve wall 2 and the central sleeve wall 7. The inner sleeve wall 2 and the central sleeve wall 7 go to form the sealing blind groove 12 for sealingly receiving the other component in one piece into each other. An axial extent IH of the inner sleeve wall 2 is less than half of an axial extent MH of the central sleeve wall 7. The axial extent MH of the central sleeve wall 7 is greater than an axial extent AH of the outer sleeve wall 3. The sealing sleeve body 1 can be used as follows First, the sealing sleeve body 1 is inserted in the manner of a plug into a neck of one of the two fluid-carrying components, so that the outer circumferential surface 4 of the outer sleeve wall 3 seals against an inner wall of this neck. The insertion of the sleeve body 1 takes so long until the stop collar 6 strikes the front side of the neck of a fluid-carrying component.

Then, the other of the two fluid-carrying components can be inserted into the sleeve body 1, wherein an outer diameter of this other fluid-carrying component corresponds approximately to the inner diameter of the inner circumferential surface 8 of the central sleeve wall 7. In particular, in the reducing section 9 then seals the central sleeve wall 7 against this other iluidführende component.

The other iluidführende component is inserted so long in the sleeve body 1 until this other iluidführende component enters the front end in the sealing blind groove 12. Now, if the other iluidführende component, so for example a metering syringe, with respect to the other fluid-leading component, so for example a reservoir for a liquid medium, tilted or tilted, this does not lead to a leakage of the sealing connection of the two fluid-carrying components on the sleeve body 1, since the central sleeve wall 7 can be tilted correspondingly flexibly with respect to the outer sleeve wall 3 via the flexible outer connecting bridge 10. This tilting can take place until the central sleeve wall 7 comes to bear against the outer sleeve wall 3 in the region of the stop collar 6. The circumferential sealing blind groove 12 provides additional sealing of the sleeve body 1 with respect to the other fluid-carrying component. Even if this other iluidführende component, so for example the metering syringe, a non-planar, in the sealing bag groove 12 coming to lie end wall, a seal in the sealing bag groove 12 is not endangered. Also a reverse order of handling the sealing sleeve body 1, in which first, for example, a metering syringe inserted into the circumferential sealing bag groove 12 in the sleeve body 1 and then this other fluid-carrying component together with the sleeve body 1 in a fluid-carrying component, so for example the reservoir is inserted until it stops at the stop collar 6 is possible. Details of the sleeve body 13, which correspond to those of the sleeve body 1, bear the same reference numerals and will not be discussed again in detail. The sleeve body 13 differs from the sleeve body 1 mainly by the design of the outer sleeve wall 3 in the region of the stop collar 6. When sleeve body 13, the outer sleeve wall 3 in the region of the stop collar 6, as the enlargement of detail in Fig. 7, with a bell-shaped Extension region 13 a configured. In an axial portion 14 of the extension portion 13a, this tapers conically to form a cone angle of, for example, 10 °. This design of the outer sleeve wall 3 in the region of the stop collar 6 improves the sealing effect of the sleeve body 13 in certain types of a fluid-carrying component, against which the sleeve body seals with the outer sleeve wall 3.

The sleeve body 13 has two sealing ribs 5. The outer sleeve wall 3 of the sleeve body 13 can be used in particular for sealing engagement with a plastic bottle as one of the sleeve body 13 to be tightly connected to each other fluid-carrying component.

The handling of the sleeve body 13 corresponds to that which has been explained above in connection with the sleeve body 1 according to FIGS. 1 to 3.

Claims

Patent claims

Sealing sleeve body (1; 13) for sealingly connecting two fluid-carrying components

with an inner sleeve wall (2),

with an outer sleeve wall (3) surrounding the inner sleeve wall (2), the outer surface (4) of which is designed, at least in some areas, to seal against one of the two fluid-carrying components,

with a central sleeve wall (7) lying between the outer sleeve wall (3) and the inner sleeve wall (2), the inner lateral surface (8) of which is designed at least in some areas to seal against the other of the two fluid-carrying components,

wherein the middle sleeve wall (7) and the outer sleeve wall (3) are flexibly connected to one another and

wherein the middle sleeve wall (7) and the inner sleeve wall (2) are connected to one another.

Sleeve body according to claim 1, characterized in that between the inner sleeve wall

(2) and the outer sleeve wall

(3) a circumferential sealing blind groove (12) is formed for sealingly receiving the other of the two fluid-carrying components.

Sleeve body according to claim 2, characterized in that the

The inner sleeve wall (2) and the middle sleeve wall (7) merge into one another in one piece to form the circumferential sealing blind groove (12) for sealingly receiving the other of the two fluid-carrying components.

4. Sleeve body according to one of claims 1 to 3, characterized in that the central sleeve wall (7) and the outer sleeve wall (3) merge into one another in one piece.

5. Sleeve body according to one of claims 1 to 4, characterized in that an axial extension IH of the inner sleeve wall (2) is less than half of an axial extension MH of the central sleeve wall (7).

6. Sleeve body according to one of claims 1 to 5, characterized in that an axial extension MH of the central sleeve wall (7) is greater than an axial extension AH of the outer sleeve wall (3).

7. Sleeve body according to one of claims 1 to 6, characterized in that the outer lateral surface (4) of the outer sleeve wall (3) has a plurality of circumferential sealing ribs (5).

8. Sleeve body according to one of claims 1 to 7, characterized in that the outer sleeve wall (3) has a molded, radially expanded stop collar (6).

9. Sleeve body (13) according to one of claims 1 to 8, characterized in that the outer sleeve wall (3) is designed to be bell-shaped in the area of the stop collar (6).

10. Sleeve body according to one of claims 1 to 9, characterized in that an inner diameter of the inner lateral surface (8) of Central sleeve wall (7) is designed to be reduced at least in sections (9) compared to the other inner diameter.