BE1018636A5 - FLEXIBLE HOSE WITH SMOOTH INNER WALL. - Google Patents

Abstract

Flexible hose comprising a corrugated wall, an outer surface of which includes a plurality of consecutive protrusions and indentations, an inner surface of which includes a plurality of slots closed by a plurality of closures, each of the plurality of closures having a first closure leg of a first profile and a second sealing leg of a second profile directed towards the first sealing leg, characterized in that the first and second sealing legs have a complementary shape provided for forming a substantially smooth inner surface.

Description

Flexible hose with smooth inner wall

This invention relates to a flexible hose as described in the preamble of the first claim. This invention further relates to a profile for the. manufacture of this hose and a method of manufacturing this hose.

This invention is particularly useful in vacuum cleaning systems where air is transported through the hose. When this air passes through the hose, whether or not in combination with dust particles, a part of the air and / or dust particles will pass against the plurality of slots present on the inner surface of the wall of the hose below the plurality to protrude from the outer surface. This increases the flow resistance for the air and / or dust particles, which results in a decrease in the maximum power available at the nozzle to suck up the dirt. Moreover, for a certain shape and number, the presence of the slots can also lead to an undesirable whistling of the hose.

EP-A-1969987 describes a flexible vacuum hose in which the whistling of the hose is reduced. To this end, a shield is provided on the inner surface of the wall to close off each of the slots. This shielding is for instance formed by a first closing leg of a first profile and a second closing leg of an adjacent profile directed towards the first closing leg. The first and second ends are bent towards the inside of the hose and at least partially overlap each other. As a result, the accessory 'is closed by air and / or dust particles to the slots' and the unwanted whistle is reduced. However, because the first and second legs at least partially overlap each other, an uneven serrated inner surface is formed, whereby the flow resistance for the air and / or dust particles inside the hose is increased and dust can accumulate in the hose. This is not desired.

The object of the invention is therefore to develop a flexible hose in which the whistling of the hose is reduced without adversely increasing the flow resistance.

This is achieved with a flexible hose which has the technical features of the characterizing part of the first claim.

To this end, the flexible hose according to the present invention is characterized in that the first and second closing leg have complementary overlapping wedge shapes that can slide over each other when the hose is bent.

The complementary shape of the first and second sealing leg provides the flexible hose with a substantially smooth inner surface and thus ensures a minimum flow resistance / air resistance inside the hose. A lower flow resistance is advantageous since this can result in a lower energy consumption when using the hose in, for example, a vacuum cleaner. A standard hose of this type usually has an inner diameter of 33 mm and a length of 1.8 meters. For this type of standard hose, a minimum flow resistance means a pressure drop across the hose that is preferably lower than 12 mbar and more preferably lower than 10 mbar.

Because the first and second sealing leg provide the flexible hose with a substantially smooth inner surface, the flexible hose according to the present invention has the additional advantage that the whistling of the hose when transporting a medium, such as for example air, is reduced.

The complementary shape and the overlap of the first and second legs are preferably chosen such that the slot remains virtually closed at all times and the inner wall remains practically smooth, regardless of the hose being folded in or out. The cooperating complementary shapes of the first and second sealing leg of an unfolded hose are preferably in the same plane so that the slot is sealed and a substantially smooth inner surface is provided.

The pitch of the flexible hoses, ie. the distance between successive protrusions / notches, according to this invention, is preferably at least 6 mm. For conventional hoses, this is usually no more than 5 mm. The advantage of such a hose is that, by increasing the pitch, surprisingly the weight of the hose can be reduced.

Increasing the pitch moreover allows a broadening of the bulge and / or notch, which can increase the flexibility of the hose, without appreciably increasing the weight of the hose.

This widening can for example be used effectively in the manufacturing process of the hose. The ribbed wall of the hose is usually formed by spirally winding an S-shaped profile, formed by three upright (straight / oblique) legs and two reclining legs. By the present is meant extending in a substantially parallel direction with the axial direction of the hose. The term "horizontal" means that it extends in a substantially radial direction of the hose. The profile is wound such that adjacent upright legs of successive déleri of the profile are vertically connected to each other.

Instead of successively connecting consecutive profile parts to each other / gluing them together, i.e. via upright profile parts, the connection can also be made horizontally via an additional lying leg provided on one of the vertical legs of the profile. The connection between successive profile parts can then take place by horizontally connecting the additional lying leg of a first profile with the second lying leg of a subsequent profile or by joining the adjacent standing legs of successive profile parts of the S-shaped profile. Connect or through a combination of both.

If the profile is provided with an additional lying leg, one of the standing legs is preferably omitted. Because the additional lying leg is shorter than the omitted standing leg, this can result in a further reduction of the weight of the hose.

The horizontal connection is preferably applied to flexible hoses with a pitch of less than 6 mm, but can also be applied to flexible hoses with a lower pitch.

Preferably, the height of the successive notches / protrusions is increased by raising the profile from which the flexible hose is constructed. The height of the notches / protrusions is preferably between 4-6 mm. Increasing the profile results in a more than linear increase for the "hub strength" of the hose. The hub strength is a measure of the force required to squeeze the hose flat.

Because increasing the pitch of a hose results in a decrease in hub strength, an increase in the pitch of the hose is preferably combined with an increase in the profile. Because increasing the pitch means a greater weight decrease than the weight gain by raising the profile, the combination of increasing the pitch with an increase in the profile causes a weight reduction of the hose and a hose with a higher hub strength. Moreover, a higher profile increases the flexibility of the hose.

Figure 1 shows a first embodiment of a flexible hose according to the invention.

Figure 2 shows a detail of a connection of successive profiles for producing the flexible hose shown in Figure 1.

Figure 3 shows a second embodiment of a flexible hose according to the invention.

Figure 4 shows a detail of a connection of successive profiles for manufacturing the flexible hose shown in Figure 3.

Figures 1 and 3 show the flexible hose according to the invention. The flexible hose comprises a ribbed wall, an outer surface of which comprises a plurality of successive protrusions 1 and notches 2. The protrusions 1 provided on the outer surface of the hose form a plurality of slots 3 on the inner surface of the wall. These slots 3 were closed off from the air flow inside the hose by two mutually facing closing legs 5, 7 of consecutive profiles 4, 6 which have a complementary cooperating shape and provide the flexible hose with a smooth inner surface. The cooperating parts of the first 5 and second 7 closing leg may have any complementary shape considered suitable by those skilled in the art, but preferably have an overlapping wedge shape as shown in Figures 1 and 3.

The protrusions 1 are formed by spirally winding and connecting consecutive profile parts to each other. Figures 1 and 2 show a first embodiment of a flexible hose according to the invention, wherein the connection between successive profile parts takes place via two adjacent upright legs 8, 10 of successive profiles 4, 6. To that end, the profile 4 shown in Figure 2 has a S-shape, with a first 8 and second 9 standing leg separated by a first lying leg 11 to form a protrusion 1 of the hose, and a third standing leg 10 and second lying leg 12 which together with the second standing leg 9 form a notch 2 of the hose. Successive profiles 4, 6 are connected to each other by connecting the third standing leg 10 of a first profile with the first standing leg 8 of a next profile. The first 5 and second 7 closing leg extend from opposite ends of the second lying leg 12 in opposite directions in the extension thereof. The length of the first 5 and second 7 closing leg is such that their ends cooperate and close the slot. "

Figures 3 and 4 show a second embodiment of a flexible hose according to the invention, wherein the connection between successive profile parts is made horizontally instead of vertically. To that end, the profile shown in Figure 4 comprises an additional lying leg 13 which is connected to the second lying leg 12 of a consecutive profile. "

If the connection is made horizontally, an S-shaped profile can be used as shown in figure 2 with an additional lying leg 13. Preferably the profile does not comprise a third standing leg as shown in figures 3 and 4. Replacing the third standing leg 10 of the profile by a shorter additional lying leg 13, results in a decrease in the weight of the hose and a cost saving in that less. material is used to manufacture the hose.

Claims (8)

A flexible hose for vacuum systems and the like comprising a ribbed wall, - an outer surface of which comprises a plurality of successive protrusions (1) and notches (2), - an inner surface of which comprises a plurality of slots (3), each of which of the slots (3) is located below a corresponding protrusion (1) of the outer surface, - wherein the ribbed wall further comprises a plurality of closures for closing off each of the plurality of slots (3) of air infiltration, - each of the plurality of closures comprises a first closure leg (5) of a first profile (4) and a second closure leg (7) of a second profile, the first closure leg (5) and the second closure leg (7) facing are mutually oriented, characterized in that - the first (5) and second (7) closing leg have complementary overlapping wedge shapes that can slide over each other when the hose is bent and are provided for forming of an almost smooth inner surface. A flexible hose according to claim 1, characterized in that the first (5) and second (7) closing leg extend in substantially the same plane. A flexible hose according to any one of claims 1-2, characterized in that the successive protrusions (1) / notches (2) of the outer surface of the ribbed wall are spaced apart by a distance of 6 mm or more. A flexible hose according to any one of claims 1-3, characterized in that each of the protrusions (1) has a height between 4 mm and 6 mm. A profile provided for manufacturing a flexible hose according to any one of claims 1-4, characterized in that the profile comprises the following parts: - a U-shaped part formed by a first (8) and second (9) standing leg separated by a first lying leg (11) provided for forming a protrusion (1) of the hose, - a second lying leg (12) extending from the second standing leg (9) in a direction substantially parallel to the first lying leg (11) and opposite thereto, provided for forming a part of an inner wall of the hose, - a first (5) and second (7) closing leg located at opposite ends of the second lying leg (12) and extending in the extension of the second lying leg (12) in opposite directions from each other, the first (5) and second (7) closing leg having complementary wedge shapes. A profile according to claim 5, characterized in that the profile further comprises a third standing leg (10) extending from the connection between the second closing leg (7) and the second lying leg (12) in a substantially parallel direction with the first raised leg (8) so that an S-shaped profile is formed. A profile according to any one of claims 5-6, characterized in that the profile further comprises a third lying leg (13) extending from the first standing leg (8) in a substantially parallel direction with the first lying leg (11) . A method for making a flexible hose according to any one of claims 1-4 manufactured by spirally winding a profile according to claim 7, characterized in that the winding takes place such that the third lying leg (13) of a first profile is at least partially overlaps with a part of the second lying leg (12) of a consecutive profile and wherein the overlapping part of the second (12) and third (13) lying leg are connected to each other.