EP0171421A1

EP0171421A1 - Reinforced hose and connector

Info

Publication number: EP0171421A1
Application number: EP19850900951
Authority: EP
Inventors: Cyril Stephen Tait
Original assignee: Individual
Current assignee: Individual
Priority date: 1984-02-14
Filing date: 1985-02-13
Publication date: 1986-02-19
Also published as: WO1985003756A1

Abstract

Tuyau, en particulier un tuyau de jardin de type plat, pouvant être enroulé en un rouleau planaire dont les enroulements successifs sont disposés concentriquement les uns au-dessus des autres. Le tuyau comporte un tube intérieur (10) en matériau plastique extrudé avec deux rebords longitudinaux opposés (11, 12) s'étendant vers l'extérieur et un tube extérieur (13) en tissu formé en une ou deux pièces (14, 15), fixé au tube intérieur (10) par des coutures (16) s'étendant le long des rebords. Raccord comportant un organe d'insertion tronconique (18), un manchon en deux pièces (17) avec des surfaces d'accouplement (24) pour serrer les rebords (11, 12) entre elles et un écrou de serrage (19) se bloquant sur le manchon (17) et se vissant sur la partie filetée supérieure (23) de l'organe d'insertion. Procédé de fabrication du tuyau par couture et tuyau avec rebord unique.Hose, in particular a flat type garden hose, which can be wound up in a planar roller, the successive windings of which are arranged concentrically one above the other. The pipe comprises an inner tube (10) of extruded plastic material with two opposite longitudinal edges (11, 12) extending outwards and an outer tube (13) of fabric formed in one or two pieces (14, 15) , attached to the inner tube (10) by seams (16) extending along the edges. Fitting comprising a frustoconical insertion member (18), a two-piece sleeve (17) with mating surfaces (24) for tightening the flanges (11, 12) therebetween and a clamping nut (19) on the sleeve (17) and screwing onto the upper threaded part (23) of the insertion member. Pipe manufacturing process by sewing and pipe with single flange.

Description

This invention relates to hoses for conveying fluid, such as garden hoses, and particularly to hoses of the flat type which may be readily rolled up into a planar roll wherein successive turns of the hose are concentrically arranged one on top of the other.

Hoses of the flat type are more flexible and are more compact when rolled up than the alternative round section hoses which are usually of a unitary structure having the necessary in-built strength to withstand the internal pressures for which the hose is designed. The flat type hoses are usually of a composite structure having an internal fluid conveying tube and an outer protective tube which encases the inner tube to prevent undue expansion and bursting of the inner tube. Usually the inner tube is a seamless extruded plastics tube and the outer tube is a woven fabric which must be light, strong and impervious to rot, for example, polyester, polypropylene and terylene.

However, known hoses of the flat type suffer a number of defects or deficiencies which render them only marginally acceptable in use. For example, the inner tube frequently becomes twisted along the length of the hose relative to the outer tube, with a resultant restriction to the fluid flow which may ultimately cause bursting of the inner tube due to the increase in pressure at the point of restriction. Furthermore, the connection of known flat hoses to a connector for attachment to a tap has not success¬ fully avoided the problems of leaking or bursting which occur all too frequently where a connector is affixed to the hose. A still further problem occurs because the coefficient of expansion differs between the inner and outer tubes causing frictional rubbing between the two mating surfaces and it often occurs that the outer tube forms a concertina over the inner tube with the result that further rubbing occurs between the two mating surfaces. The net result of all this is that wear occurs on the inner tube ultimately causing a premature bursting of the hose. Also, due to the unequal lengths created between inner and outer tubes during assembly there develops an accumulation of one or the other at one end of the hose which causes excessive pressure resulting in damage to the hose. Furthermore, it has previously been considered desirable for reasons of strength ard durability to make th ^ outer tube seamless and this complicates the manufacturing process thus rendering manufacture more expensive. Also, because of difficulties in inserting an inner tube inside a pre-formed seamless outer tube there is a limitation or restriction on the length of known hose that can be manu¬ factured in a single length.

It is an object of this invention to provide an improved fluid conducting hose of the flat type, which avoids or at least reduces one or more of the disadvantages of known flat hoses.

It is a further object to provide an improved connector arrangement for connection to the end of a fluid conducting hose of the flat type.

It is a still further object to provide an improved method of manufacturing a fluid conducting hose of the flat type.

Accordingly, one form of the invention provides a fluid conducting hose of the flat type having an inner fluid conducting tube and an outer protective tube for con¬ taining the inner tube against bursting under pressure, characterized in that, said inner tube is attached to said outer tube along the length of the hose. According to a further form of the invention there is provided a connector arrangement for attachment to the end of a fluid conducting hose of the flat type having an inner fluid conducting tube and an outer protective tube, said inner tube having at least one flange extending along the length thereof and attached to said outer tube along a seam, characterized in that, said connector arrangement includes a frusto conical collar split longitudinally to form two similar collar members, said collar members having mating surfaces adapted to clamp a said flange therebetween, a frusto conical insert member for sliding into said inner ^• tube, small end first, and having a threaded cylindrical portion extending from the larger end for threadable engage¬ ment with a clamping nut, said clamping nut being adapted to fit over said hose and having a tapered bore portion for forcing said mating surfaces towards each other as said nut is tightened, so as to cause said collar members to clamp a said flange between the mating surfaces so as to retain ~ the connector arrangement on the hose and form a fluid seal between said insert member and said inner tube.

According to a still further form of the inven¬ tion there is provided a method of manufacturing a fluid conducting hose of the flat type having an inner fluid conducting tube and an outer protective tube, characterized in that, said method includes the steps of feeding an inner tube, of the kind having opposed outwardly extending flanges extending therealong, into a sewing machine together with opposed elongate strips of material suitable for pro¬ viding said outer tube and simultaneously stitching adjacent edges of said material together using said machine such that the stitching passes through respective said flanges and thereby attaches said outer tube to said inner tube at said respective flanges along the length of said hose.

In order that the invention may be more readily understood reference should now be made to the accompanying drawings wherein:

FIG. 1 is a perspective view of a short length of an inner tube according to one embodi¬ ment of a hose for conducting fluid, FIG. 2 is an end view of the length of hose shown in FIG. 1, FIG. 3 is a perspective view of a short length of the inner tube of a fluid conducting hose according to a second embodiment of the invention,

FIG. 4 is an end view of the tube shown in

FIG. 3 shown in position inside an outer tube, FIG. 5 is an exploded perspective view, partly in section, of a connector for attachment to one end of a hose according to the invention, and FIG. 6 is a sectional side elevation of the connector of FIG. 5. In FIG. 1 the inner tube 10 is formed as an extruded plastics tube of circular cross-section having a flange 11 extending along the length thereof. The flange l]t~ is consequently formed integral with the tube 10. The dimensions are such that for an inner tube 10 having a diameter of 12 mm the flange 11 has a width, that is, a radial dimension r (FIG. 2) of approximately 3 mm.

Referring now to FIG. 3, there is shown another embodiment of the inner tube 10 wherein as well as a flange 11 similar to that in FIG. 1, there is an opposed flange 12 on the opposite side of the inner tube 10. Both flanges 11 and 12 extend along the length of the inner tube 10 and are extruded integral therewith during manufacture of the inner tube 10. Again the radial dimension r of the flanges 11 and 12 is about 3 mm for a 12 mm inner tube diameter.

FIG. 4 shows the inner tube 10 in a partially flattened condition inside an outer tube 13 formed of two separate pieces of woven fabric 14 and 15 which are stitched together along adjacent longitudinal edges to form the outer tube. The longitudinal edges of each piece of woven fabric are turned back to provide additional strength along the seams, Stitching 16 which joins the two edges of the fabrics 14 and 15 together also passes through the flanges 11 and 12 of the inner tube. Thus, in utilizing the inner tube shown in the embodiment of FIGS. 3 and 4, it is attached to the outer tube along the length thereof at two positions diametrically opposed.

It should be evident that in using the inner tube shown in the embodiment of FIGS. 1 and 2, the inner tube is attached to the outer tube along the length thereof at one position only according to the position of the flange 11 rather than on opposite sides as occurs with the inner tube of FIGS. 3 and 4. In utilizing the inner tube shown in FIGS. 1 and 2, the outer tube may be formed of two separate pieces of fabric as shown in FIG. 4 or may be a single piece of fabric which is folded around and joined by a single seam.

In manufacturing the hose according to the above described embodiments, it is preferably to use an outer tube formed of two separate pieces of fabric since a sewing machine which is used to join the inner and outer tubes ca ^. more readily be adapted to receive- two separate pieces of fabric constituting the outer tube rat^'her than a single piece which is folded over.

In order to manufacture the hose depicted in FIG. 4, a previously extruded inner tube 10 in flat config¬ uration is fed into a sewing machine (not shown) together with the pieces of woven fabric 14 and 15 on either side thereof. Guide rollers (not shown) ensure that the fabric 14 and 15 is folded back at the seams and is in the appro¬ priate position prior to stitching such that when the com¬ ponents pass under the sewing head (not shown) , the stitching 16 passes through the woven fabric and the flanges 11 and 12. Thus a continuous length of inner tube 10 and woven fabric 14 and 15 may be fed into the machine to produce the final product.

According to the embodiments described above, the outer tube 13 is formed from woven fabric in the form of polyester, polypropylene, terylene or other like fabrics which are generally light in weight, strong and impervious to rot.

Referring now to FIGS. 5 and 6, there is shown a connector arrangement suitable for attachment to an end of a hose according to the above described embodiments whereby the hose with connector may be attached to a tap in such cases where the hose is to be used as a garden hose for example. The connector arrangement is shown to comprise a pair of tapered collars 17 adapted to combine to form a first frusto conical member for location over an end of the hose. The opposed faces of the collars 17 have complementary saw¬ tooth configurations so that they crip the flanges 11 and 12 therebetween when the collars are in position as shown in FIG. 6. A second frusto conical member 18 having an O-ring 25 thereon is adapted for insertion into the end of the hose. The second frusto conical member 18 has a threaded cylindrical end portion 23 with a flange thereon for engaging the inside of a female member 20 which is adapted for threadable attachment to the outlet of a suitable tap. The female member 20 is able to rotate independently of the frusto conical member 18.

A clamping nut 19 has an internally threaded portion 22 and the remainder of the bore is tapered for engagement with the outer surfaces of the collars 17 to apply a clamping force to the collars when the nut 19 is tighened onto the threaded portion 23 of the second frusto conical member 18. The O-ring 25 forms a seal on the inter¬ nal surface of the inner tube 10 of the hose. In order to install the connector arrangement on the end of a hose, the nut 19 is firstly slid over the hose, the second frusto conical member 18 is inserted in the end of the hose within the inner tube 10 such that the- hose extends up to the threaded portion 23 of the member 18. The two collars 17 are then placed over the end of the hose so that they abut the threaded portion 23 and the saw-tooth configurations are against the flanges 11 and 12. The nut 19 is then tightened onto the threaded portion 23 by engage¬ ment with the threaded portion 22 of the nut and this causes the collars 17 to be forced together to rigidly grip the flanges 11 and 12 as is shown clearly in FIG. 6. Of course the female member 20 is engaged over the threaded portion 23 of the frusto conical member 18 prior to assembly on the hose. Thus, once the end of a hose is attached to the connector arrangement, the connector arrangement may be readily attached to a tap in a manner whereby the hose is able to rotate relative to the tap. Clearly, the female member 20 may take any one of a number of different forms depending on the type of connection which is to be made to the tap. The collars 17 rigidly grip the flanges of the hose and prevent it from becoming detached from the connector arrangement. The O-ring 25 ensures a fluid tight seal between the connector arrangement and the hose.

It should be evident that the invention provides considerable advantages over known hoses of the flat type and overcomes most if not all of the aforementioned dis¬ advantages essentially because the inner and outer tubes are attached to each other along their length. In addition the method of manufacturing the present invention is much faster than existing methods because the inner tube does not have to be separately inserted into the outer tube but rather is inserted as the two components are fed into a sewing machine^31" for seaming the outer tube and fixing the two together. Thus the hose can be formed in unrestricted lengths.

Claims

1. A fluid conducting hose of the flat type having an inner fluid conducting tube and an outer protective ube_.^ for containing the inner tube against bursting under pressure, characterized in that, said inner tube is attached to said outer tube along the length of the hose.

2. A hose as defined in claim 1, characterized in that, a flange extends along the length of said inner tube and said outer tube is attached to said flange along the length of said hose.

3. A hose as defined in claim 2, characterized in that, said outer tube is attached to said flange by means of stitching which passes through said outer tube and said flange.

4. A hose as defined in claim 3, characterized in that, a second flange extends along the length of said inner tube, opposite said first mentioned flange, and said second flange is also attached to said outer tube along the length of said hose by means of stitching which passes through said outer tube and said second flange.

5. A hose as defined in claim 4, characterized in that, said outer tube is formed of woven material in two pieces having seams extending along the length thereof and said stitching which passes through said outer tube and respective flanges serves to join said respective seams..

6. A hose as defined in claim 5, characterized in that said woven material is folded back on itself at said seanrs to provide additional strength and said inner tube is an extruded plastics tube.

7. A connector arrangement for attachment to the end of a fluid conducting hose of the flat type having an inner fluid conducting tube and an outer protective tube, said inner tube having at least one flange extending along the length thereof and attached to said outer tube along a seam, characterized in that, said connector arrangement includes a frusto conical collar split longitudinally to form two similar collar members, said collar members having mating surfaces adapted to clamp a said flange therebetween, a frusto conical insert member for sliding into said inner tube, small end first, and having a threaded cylindrical portion extending from the larger end for threadable engage¬ ment with a clamping nut, said clamping nut being adapted to fit over said hose and having a tapered bore portion• for forcing said mating surfaces towards each other as said nut is tightened, so as to cause said collar members to clamp a said flange between the mating surfaces so as to retain the connector arrangement on the hose and form a fluid seal between said insert member and said inner tube.

8. A connector as defined in claim 7, characterized in that, said mating surfaces have complementary saw-tooth edges and said hose has two opposed flanges, each pair of said mating surface being adapted to grip a respective one of said flanges therebetween to retain said connector on the end of said hose.

9. A connector as defined in claim 8, characterized in that, said insert member is rotatably affixed to a female member for engagement with a tap.

10. A method of manufacturing a fluid conducting hose of the flat type having an- inner fluid conducting tube and an outer protective tube, characterized in that, said method includes the steps of feeding an inner tube, of the kind having opposed outwardly extending flanges extending therealong, into a sewing machine together with opposed elongate strips of material suitable for providing said outer tube and simultaneously stitching adjacent edges of said material together using said machine such that the stitching passes through respective said flanges and thereby attaches said outer tube to said inner tube at said res¬ pective flanges along the length of said hose.

11. A method as defined in claim 10, characterized in that, the longitudinal edges of each of said strips are folded over to provide a double- thickness of said material at said stitching.

12. A method as defined in claim 11, characterized in that, said inner tube is an extruded plastics tube and said outer tube is formed of polyester, polypropylene, terylene or like material.