NL8701296A - TUBE HOSE, IN PARTICULAR FOR HEAT EXCHANGERS, AND RESERVOIR WITH SUCH A TUBE HOSE. - Google Patents

Description

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Tube hose, in particular for heat exchangers, in addition to a reservoir with such a tube hose.

The invention relates to a tube hose, in particular for heat exchangers, consisting of a tube strand formed into helical windings with end parts designed as inlet and outlet.

The object of the invention is to design such a tube hose, which is particularly suitable for installation in reservoirs as a heat exchanger, as a compact, rigid and shape-resistant object, which can be used without additional stiffening elements and without danger of deformation. can be transported, stored and finally can be fitted precisely in reservoirs, for example storage reservoirs, houses and the like, without the danger of exceeding the permissible connection tolerances.

According to the invention, this object is achieved in that in a tube hose of the type described above, at least one of the two ends is guided along the circumference of the helical windings and is connected to these windings to stiffen the tube hose.

Numerous further inventive features of such a tube hose are the subject of subclaims and are clarified hereinafter for the sake of a better understanding with reference to the drawing, which shows various embodiments of the device according to the invention.

In the drawing: Fig. 1 shows a side view of a tube hose according to the invention; fig. 2 shows a cross section through a first embodiment; Fig. 3 shows a detail of an embodiment variant; FIG. 4 is an enlarged detail of the first embodiment of FIG. 2; Fig. 5 shows the same view as Fig. 4 of a second embodiment; and fig. 6 shows a side view of a tube hose, which is integrated as a heat exchanger in a hot water supply- 8701296 - 2 - *

V

vessel, the vessel being shown in axial longitudinal section.

According to Fig. 1, the tube hose consists of a tubular string 1 formed into helical windings, with inlet 3 and outlet 4 designed for connecting to 5 pipelines, serving end parts 3 and 4, each of which is provided with an outer thread 5 at their outlets. 3 and 4 are straight and are both parallel to the central axis 10 of the screw windings 2 and their outlets point in the same direction.

The end part 3 is guided along the outer circumference of the helical windings 2, touches these windings 2 and is connected thereto for stiffening the tube hose.

Within the scope of the invention it would also be conceivable to guide such an end part 3 and / or 4 within the tube hose along the inner circumference of the windings 2, in order thereby to form a purely cylindrical heat exchanger with regard to the outer dimensions and this within arranging a likewise cylindrical reservoir.

As the figures 2 and 4 show, the windings 2 can be connected to these end parts 3, for example by welding seams 6, but soldering or gluing may also be suitable for this direct fixing.

Figures 2 and 3 illustrate how for the additional stiffening of the tube hose on a location of the tube hose situated opposite the longitudinal axis of the windings 2, diametrically opposite to the stiffening end part 3, a, also serving for stiffening, parallel to the rod 7 running rod 7, a tube 8 or the like may be attached.

The second end part 4 could possibly also be suitable for such additional stiffening, but in practice it is more favorable for the installation of such heat exchangers to have the outlets of the two end parts 3 and 4 point in the same direction.

Fig. 5 shows an embodiment variant in which the stiffening end part 3 is attached indirectly to the windings 2, namely by means of a common 8701296-3 or by means of separate intermediate elements 9.

Such a common intermediate element 9 or a number of separate intermediate elements can also be connected to the windings 2 or to the stiffening end part 3 by welding, soldering or gluing.

Finally, Fig. 6 shows a tube hose according to Fig. 1 built into a storage reservoir 11 as a heat exchanger, of which the end parts 3 and 4, intended for connection to a pipe network, run parallel to each other through the lid 12 of the reservoir.

This embodiment has the important advantage that when the tube hose is installed in the reservoir 11, the tube hose can be lowered arbitrarily far into the reservoir in order to reduce dead space, in particular in the region of the bottom of the reservoir. avoid.

The end parts 3 and 4 of the tube hose can advantageously be attached at any point of their parallel course to the reservoir lid, so that the optimum position of the tube hose within the reservoir with regard to the heat exchange capacity can be freely chosen. .

- conclusions - 87CM29 6

Claims (8)

Tubing hose, in particular for heat exchangers, consisting of a tubular string formed into helical windings with end parts designed as inlet and outlet, characterized in that at least one (3) of these end parts (3,4) is circumferentially of the helical windings (2) and is connected to these windings (2) to stiffen the tube hose. Tube hose according to claim 1, characterized in that the stiffening end part (3) is attached to the outer circumference of the windings (2). Tubing hose according to claim 1 or 2, characterized in that the stiffening end part (3) is connected to these windings (2) directly, for example, by welding (6), soldering, gluing or the like. Tube hose according to claim 1 or 2, characterized in that the end part (3) is attached indirectly to the windings (2), for example by means of a common or by means of separate intermediate elements (9). Tube hose according to any one of claims 1 to 4, characterized in that the end part (3) runs straight and preferably parallel to the central axis (10) of the helical windings (2). Tubing hose according to one of Claims 1 to 5, characterized in that the position of the helical windings (2) which is also diametrically opposed to the central axis (10), which is diametrically opposite the stiffening end part (3), The rod (7), a tube (8) or the like, preferably extending parallel to the end part (3), is provided with stiffening of the tube hose. 8701236 - 5 - Μ Tubing hose according to any one of claims 1 to 6, characterized in that the outlets of the two end parts (3,4) running parallel to one another point in the same direction, with only one (3) of these end parts (3,4 ) serves to stiffen the tube hose. 8. Reservoir with a tube hose according to claim 7, characterized in that the two mutually parallel end parts (3,4) of the tube hose running through the reservoir lid (12) at arbitrarily select locations of their parallel course to the reservoir. cover can be attached. 8701296