DE8913722U1 - High pressure hose line with hose connection - Google Patents

Description

High pressure hose line with hose connection

The invention relates to a multi-layer high-pressure hose line with a hose connection which has a chamber, which is formed by the hose mandrel, the hose sleeve and the end piece of the inner tube of the hose and in which an elastic sealing element is located, wherein the end piece is arranged sealingly between the braid layer and the outer jacket of the hose and the inner edge of the inner surface of the hose sleeve.

Hydraulic hoses made of thermoplastics exhibit a settling behaviour in the area of the connection when there are strong temperature changes, which leads to leaks. The temperature stresses are high and lie in the range of - 4O ⁰ C to + 12O ⁰ C. The settling behaviour mentioned results from the different thermal expansion coefficients of the plastics on the one hand and the metal on the other. The plastics of the hoses have a thermal expansion coefficient that is up to 15 times higher than the metals of the hose connection. When subjected to heat, this leads to plastic deformation and material displacement from the connection area of the hose connection. When the hose cools down afterwards, the volume in the connection area is no longer completely filled by the plastic and the hydraulic fluid can escape from the connection.

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Date 08.11.89 258/500

Based on the known state of the art, the invention is based on the object of designing a high-pressure hose line with hose connection in such a way that a permanent connection is created between the high-pressure hose line and the hose connection, which also withstands strong and frequent temperature changes and has the smallest structural dimensions.

This object is achieved according to the invention in a high-pressure hose line with hose connection of the type assumed to be known in that, viewed in the direction of sliding on, a chamber is provided behind the hose end, which is formed by the hose mandrel, the hose sleeve and the widened end piece of the inner tube of the hose and in which an elastic sealing element is located.

According to a further proposal of the invention, the volume of the chamber is larger than the volume of the sealing element. Furthermore, it has proven to be expedient that the width of the chamber is larger than the thickness of the sealing element. Further features of the invention are described in the further subclaims.

The solution in accordance with the invention creates a secure connection between the high-pressure hose and the hose connection, which can withstand large temperature differences and frequent temperature changes. The secure connection is created when the hose is connected with a hose sleeve by the radial pressing of the sleeve and the hose.

Three preferred embodiments of the invention are described in detail below with reference to the drawing. They show:

Figure 1 the end of the high pressure hose line

with integration, consisting of the high-pressure hose, the hose mandrel,

Sheet 3

Date 08.11.89 258/500

the hose sleeve and the sealing element; shown in a longitudinal section and a longitudinal view;

Figure 2 is a representation analogous to Figure 1 of a hose line having two braid layers in the braid layer;

Figure 3 is a representation analogous to Figure 1

a hose line in which the end piece of the inner pipe is reinforced by a support element.

First, Figure 1:

The thermoplastic high-pressure hose (1) consists of the inner tube (7), the braided layer (10) and the outer jacket (11). The hose connection consists of the metallic hose mandrel (2) and the metallic hose sleeve (3). An elastic sealing element (4) is used as an additional seal between the hose and the connection.

The preformed end (9) of the hose (1) is pushed onto the mandrel (2) in the direction of the arrow (16); it is fixed there with the profiled sleeve (3). The radial compression of the sleeve (3) creates a complete chamber (5) in which the elastic sealing element (4) is placed, which consists exclusively of the mandrel (2), the sleeve (3) and the end piece of the inner tube (9) of the hose (1). Radial and axial (22) sealing surfaces were created by the appropriate dimensional design of the sealing element (4) in relation to the volume of the chamber, taking into account the swelling behavior of the sealing element (4) under the influence of the hydraulic medium.

Sheet 4 _Date 08.11.89

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Likewise, the corresponding design of the end piece (9) of the inner tube (7) of the hose (1) ensures that it rests against the inner edge (6) of the inner surface (8) of the hose sleeve (3) and additionally seals the hose (1) against the pushing-on direction (16). The sleeve (3) is supported on the mandrel (2) in the area of the chamber (5) on the outer edge (12) and the surface (13).

The sealing element (4) consists of a material that swells under the influence of the liquid in the high-pressure line. In the case of hydraulic fluids, the element (4) consists of an elastomer; its ability to swell creates an additional sealing effect. The volume of the sealing element (4) is matched to the volume of the chamber (5).

Figure 2 shows almost the same design as Figure 1 in terms of the key features. The only difference is the structure of the braid layer (10) of the hose (1) in 2 layers. This results in a larger radial diameter of the entire integration; the individual diameters of the various parts are designed accordingly.

Figure 3 shows almost the same design as Figure 1 and Figure 2 in terms of the key features. In addition, a support element (17) is taken into account, which provides reinforcement for the end piece (9) of the inner tube (7) against the pressure effect in the chamber (5) and at the same time permanently protects the end piece (9), especially against the braid layer (10), which can consist of steel wires, for example. The support element (17) is designed in such a way that its inner diameter (18) is cylindrical, which is matched to the outer diameter of the inner tube (7), merges into a radius (19) and ends in a cone (20).

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wherein the free ends of the element (17) are aligned, i.e. both ends point in the same direction.

In a variant not shown, the sealing element (4) can consist of one or more elastic sealing rings.

Claims (14)

Protection claims 3 1. High-pressure hose line with hose connection, consisting of a multi-layer hose, a hose mandrel, a hose sleeve and a sealing ring, in which one end of the hose is pushed onto the hose mandrel and axially fixed, at the end of which there is a chamber in which the sealing ring is located and the hose is radially pressed between the sleeve and the mandrel, characterized in that the chamber (5) is formed by the hose mandrel (2), the hose sleeve (3) and the widened end piece (9) of the inner tube (7) of the hose (1), which is arranged sealingly between the braid layer (10) and the outer casing (11) of the hose (1) or the inner edge (6) of the inner surface (8) of the hose sleeve (3) and an elastic sealing element (4) is located in the chamber (5). 2. High-pressure hose line according to claim 1, characterized in that the volume of the chamber (5) is larger than the volume of the sealing element (4). Sheet 2 Date 08. 11.89 258/500 3. High-pressure hose line according to claim 1 or 2, characterized in that the metallic width of the chamber (5), defined by the distance between the inner edge (6) and the outer edge (12), is greater than the thickness of the sealing element (4). 4. High-pressure hose line according to one or more of claims 1 to 3, characterized in that the elastic sealing element (4) consists of a material that swells in the conveying medium. 5. High-pressure hose line according to one or more of claims 1 to 4, characterized in that the sealing element (4) consists of an elastomer. 6. High-pressure hose line according to claim 1, characterized in that the outer diameter of the end piece (9) of the inner tube (7) is larger than the inner diameter of the inner edge (6) of the inner surface (8) of the hose sleeve (3). 7. High-pressure hose line according to claim 1 and 6, characterized in that the inner surface (8) of the hose sleeve (3) is cylindrical, conical or curved. 8. High-pressure hose line according to claim 1, 6 and 7, characterized in that the diameter of the outer edge (12) is greater than or equal to the diameter of the inner edge (6) of the inner : ^:: :ü 1 'T^OO - 3 - Sheet 3 Date 08.11.89 258/500 surface (8) of the hose sleeve (3). 9. High-pressure hose assembly according to claim 1, 6, 7 and 8. characterized in that the inner edge (12) of the hose sleeve (3) rests force-fittingly on the corresponding surface (13) of the hose diaphragm (2). 10. High-pressure hose line according to claim 1, characterized in that the end (14) of the hose sleeve (3) facing away from the hose is positively connected to the hose mandrel (2). 11. High-pressure hose line according to claim 1, characterized in that the braid layer (10) consists of one or more braid layers. 12. High-pressure hose line according to claim 1, characterized in that a support element (17) is arranged between the widened end piece (9) of the inner tube (7) and the braid layer (10) or the outer casing (11) of the hose (1). 13. High-pressure hose line according to claim 1 and 12, characterized in that the support element (17) is cylindrical in its inner diameter (18), dimensionally matched to the outer diameter of the inner tube (7), in a radius (19) Sheet 4 Date 08.11.89 258/500 and is conical (20) and its two ends are aligned in the same direction. 14. High-pressure hose line according to claim 1 ₁ 2, 3, 4 and 5, characterized in that the sealing element (4) consists of one or more sealing rings.