Textile hose

Abstract

Textile hose for encasing elongated objects, characterised by having a radially elastic outer layer made from wear-resistant material and at least one inner layer made from thermally insulating material.

Claims

1. Textile hose for encasing elongated objects, comprising: a) a radially elastic outer layer (2) made from wear-resistant material, and b) at least one inner layer (4) made from thermally insulating material.

2. Hose according to claim 1, wherein the outer layer (2) and the at least one inner layer (4) are joined together in places by a textile binding (26) or by sewing or by bonding.

3. Hose according to claim 2, wherein the outer layer (2) and the at least one inner layer (4) are joined together along zones (12) extending axially and spaced apart from one another.

4. Hose according to claim 3, further comprising filling material in the form of threads; or ribbons, made from foam material, is arranged between the outer layer (2) and the at least one inner layer (4) in the region of chambers (14) situated between the zones (12).

5. Hose according to claim 1, wherein the outer layer (2) and the at least one inner layer (4) are constructed as woven fabric, weft-knitted fabric, warp-knitted fabric or braided fabric.

6. Hose according to claim 1, further comprising multifilament threads running axially and elastic threads and multifilament threads running circumferentially.

7. Hose according to claim 1, characterised wherein the outer layer (2) is coated or impregnated with an agent which increases the wear resistance.

8. Hose according to claim 1, wherein the at least one inner layer (4) is coated or impregnated with an agent which increases the thermal conductivity.

9. Hose according to claim 1, wherein the hose is composed at least partially of finished threads.

10. Hose according to claim 1, wherein the at least one inner layer (4) is wetted internally with an adhesive or a glue.

11. Hose according to claim 1, wherein the at least one inner layer (4) is formed in the form of ribbons made from foam material.

12. Hose according to claim 1, wherein the hose has a thermal conductivity 0.3 W/m×K.

13. Hose according to claim 1, wherein the hose has a wall thickness ranging from 1 to 8 mm.

14. Hose according to claim 1, wherein that the outer layer (2, 22) has an elastic weft thread made from silicone rubber.

Description

[0018] To facilitate understanding of the invention and to show how it can be embodied, it will now be briefly explained by way of an example embodiment with the aid of a drawing, in which:

[0019] FIG. 1 is a greatly simplified diagrammatic perspective view of a section of a hose according to the invention cut lengthwise and approximately centrally, arranged around an elongated object and already partially contracted thereabout.

[0020] FIG. 2 is a diagrammatic view of a cross-section through the textile hose with a detail X.

[0021] FIG. 3 is a greatly simplified diagrammatic perspective view of a section of an embodiment of a hose according to the invention.

[0022] FIG. 4 is a greatly simplified diagrammatic perspective view of a section of a hose according to the invention cut lengthwise and approximately centrally, similar to FIG. 1 without elongated object.

[0023] FIG. 5 is a greatly simplified diagrammatic perspective view of a section of a textile hose according to the invention with longitudinal chambers.

[0024] FIG. 1 shows a hose 10 according to the invention cut lengthwise and approximately centrally, having an outer layer 2 and an inner layer 4. The outer layer 2 is intended to represent an abrasion-resistant sheath which surrounds the insulating inner layer 4. In a region III, the hose 10 is shown already contracted around an elongated object, here a pipe 1 for example, due to its radially elastic structure.

[0025] In regions I and II, the hose 10 still has an inner diameter which is greater than the outer diameter of the pipe 1. At the beginning of fitting, the hose 10 according to the invention which has been expanded to a diameter in accordance with region I, for example by means of a device (not shown), is pushed onto the pipe 1, with the result that it contracts due to the radial elasticity of the outer layer 2, as the transition in region II is intended to show, and attaches to the pipe 1. In region III, the hose 10 is already fully contracted radially and sits tightly on the pipe 1. It is easy to see that the insulating inner layer 4 is thicker than the abrasion-resistant outer layer 2.

[0026] In region III, the hose 10 is already contracted and sits tightly on the pipe 1, the insulating inner layer 4 fitting closely. An adhesive can also be applied between insulating layer 4 and pipe 1 to fix the hose even more securely to the pipe 1.

[0027] The contraction process is to be typified in region II. The diameter of the textile hose 10 reduces, while at the same time the wall thickness of the insulating inner layer 4 and the wear-resistant outer layer 2 increases.

[0028] Advantageously, the thermally insulating inner layer 4 has a wall thickness of between 0.5 and 6 mm. The function of the wear-resistant outer layer 2 of the textile hose 10 is to protect the insulating inner layer 4 against mechanical effects from the outside.

[0029] FIG. 2 shows, for example, a hose 10 according to the invention executed here as a transverse-oval, with an outer layer 2 and an inner layer 4 which are joined together by means of a plurality of bindings 26, e.g. in the form of a woven binding or a basting stitch or a braided connection. When using a plurality of layers of insulating inner layers 4 as referred to above, the binding 26 may also be arranged therebetween. The bindings 26 extend not only circumferentially in the textile hose 10 but also in the longitudinal direction thereof in order to achieve a uniform interconnection of the individual layers. These bindings 26 are preferably created by interweaving during manufacture of the textile hose 10. The hose 10 according to the invention may be manufactured by weaving, warp-knitting, weft-knitting or braiding. Subsequent fixing by means of adhesive technology or by sewing the individual layers would also be conceivable as ties 26. The arrangement of a tie 26 is shown enlarged in FIG. 2, bottom right.

[0030] FIG. 3 shows a diagrammatic illustration of a textile hose 50 as it is after finishing with an expedient finishing liquor to improve the thermal conductivity, mechanical resistance or. Here a detail of the textile hose 50 is enlarged to show that the finishing liquor (that is a fluid for treating or finishing a textile object, see above), hereinafter referred to as a “coating”, impregnates the textile hose 50. Here the reference number 60 indicates, for example, textile layers of the hose which are completely impregnated, while reference number 70 is intended to indicate textile layers in their unfinished form (before the application of a finishing liquor).

[0031] It would also be conceivable to wet only the surface of the textile hose superficially and thus to dispense with completely impregnating the entire textile hose. Due to superficial wetting, the finishing (finishing liquor) does not “stiffen” the inner layers which preserves the bulkiness of the threads of the inner layer and allows better insulation values to be achieved. In addition, there is the advantage that finishing material can be saved.

[0032] FIG. 4 is a greatly simplified diagrammatic perspective view of a section of a hose according to the invention cut lengthwise and approximately centrally, similar to FIG. 1.

[0033] FIG. 5 is a greatly simplified diagrammatic perspective view of a section of a textile hose 20 according to the invention with a radially elastic outer layer 22 and an inner layer 24, as well as with longitudinal chambers 21 situated therebetween which are partially filled with filler threads 23. The inner layer 24 surrounds an interior space 27 in which elongated objects (not shown), such as pipes, tubes, cables, etc., may find space, or which may be encased with the hose 20 according to the invention. If the hose 20 according to the invention is “pulled on” around an elongated object (FIG. 1), it contracts so that it fits tightly around the elongated object. Advantageously, the inner surface 29 of the inner layer 24 may also be provided with an adhesive, via which even better adhesion of the hose 20 to the elongated object can be achieved. Some of the filled chambers 21 in the embodiment according to FIG. 5 contain filling material 23 in the form of threads, ribbons, preferably made from foam material, by means of which the insulation capacity of the tube 20 can increase considerably.

[0034] The outer layer 22 and the inner layer 24 of the hose 20 according to the invention are woven, for example, as shown in FIG. 5 and joined together in the region of zones 12 via e.g. woven bindings 26. Chambers 21 are arranged between the zones 12 extending longitudinally. On the outside of the outer layer 22 are threads of a plain weave L 1/1, as indicated by - | - | - | -| -| - in which the hose 20 according to the invention, for example, is woven. However, other weaving patterns may also be used. The hose, however, may also be weft-knitted, braided or warp-knitted. The radially elastic outer layer 22 consists of wear-resistant material and the inner layer 24 of thermally insulating material.

[0035] Filler threads 23, which are arranged in the chambers 21, are used in addition for thermal insulation of the inner layer 24. FIG. 5, top right, shows an “exposed” “filling” of a chamber 21 in the form, for example, of crimped threads 23. For this purpose, the corresponding chamber is shown cut away at the point “S”. However, it is also possible to use a plurality of other filling materials. A chamber 211 is filled, for example, with stretched threads 231 which are shown “exposed” at the point 123. In addition, tubes, any suitable thermal insulating material, even in fleece or ribbon form, may be used. The present embodiment shows a hose 20 with an inner layer 24. According to the invention, however, a plurality of inner layers 24 may also be arranged on top of or inside each other like onion skins, in order, for example, to increase the thermal insulation capacity of the hose 20.