Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
  • F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
  • F16L11/00—Hoses, i.e. flexible pipes
  • F16L11/04—Hoses, i.e. flexible pipes made of rubber or flexible plastics
  • F16L11/08—Hoses, i.e. flexible pipes made of rubber or flexible plastics with reinforcements embedded in the wall

Definitions

• the present invention relates to lightweight rubber hosing and then particularly, but not exclusively, to hosing adapted for use as a suction hose or pressure hose that can be used with milking machines or milking apparatus, for instance.
• the hosing can be bent or curved at an angle of 180° with a bend diameter that corresponds essentially to the inner diameter of the hose while still retaining an effective hose function with regard to the conveyance fluid through the hose.
• the hose includes two concentrical rubber layers and an intermed ⁇ iate reinforcement layer.
• LWH lightweight rubber hosing
• hoses or hosing is not limited to milking machines or milking apparatus, however, since many other areas of use are found in which lightweight hoses are beneficial, among other things for ergonomic reasons. Examples of such use are found in water hoses and pneumatic hoses, both for domestic and industrial use.
• a lightweight hose shall be at least 30% lighter, preferably 50% lighter- than standard hoses having the same inner diameter. This requirement places specific demands on lightweight hoses. For instance, it is necessary to incorporate stiff reinforc ⁇ ing material in the hose.
• the hose must still fulfil the requirements placed on the shorter hoses and the longer hose lengths must have at least equally as good properties as the short lightweight hoses that are available, at present.
• the old type of lightweight hose with helical reinforcements in larger lengths, either continuously or discontinuou ⁇ ly.
• the present invention thus provides lightweight hosing of infinite length which has the properties required for application in modern milking machines, and also a method for the continuous manufacture of such hoses.
• the invention is characterized by the features and steps set forth in the following Claims.
• the inventive rubber hosing thus includes a reinforcing layer which surrounds the inner layer of the two rubber layers in the hose wall at least generally. It will be understood that the outer sides of the reinforcement may overlap one another or may terminate short of each other. It is not essential that the reinforcement has the same width around the inner layer along the full length of the hose. The important thing is that the reinforcement extends at least substantially around the full circumference of the inner layer.
• the hose reinforcement layer may consist of a thermoplastic net structure in which the meshes of the net structure form an obliquely angled checkered pattern, with the net structure in one single continuous piece.
• Polyamide ⁇ or polyesters are suitable thermoresin ⁇ for a net structure of this kind. It is important that the net structure has an obliquely angled checkered pattern so that desired stability against laterally and longitudinally acting shear forces can be achieved also during manufacture of the hose.
• a checkered pattern of this configuration results in a net structure which is more stable mechanically than a net structure whose meshes have a right- angled configuration, such as in the case of woven net structures.
• the net structure is in one single continuous piece, which means that the net structure can either be produced from a homogenous web of material, for instance by so-called expansion, wherein the web is first penetrated to form rows of slots in the cross-direction of the web, with these slots being repeated along the length of the web, and then mechanically stretched so as to widen the slots and form oblique meshes.
• the reinforcing net structure will preferably have a checkered pattern with a smallest angle in the range of 20-85°, preferably about 55°.
• the thread diameter may be about 0.8 mm and the bands may have a size of about 0.5 x 2.0 mm, although these dimensions are not particularly critical and may vary in accordance with the reinforcement material used and the application for which the hose is intended.
• the two rubber layers in the hose wall are in close contact with the reinforcement layer but are not affixed thereto, and are joined together through the meshes of the net structure.
• this latter feature of the inventive hose can be achieved solely by continuous extrusion of the hose, which enables the earlier described rigid spirals in known lightweight hose constructions to be replaced with a plastic net structure in accordance with the invention without detracting from the specific properties required in such hoses.
• the inventive hosing is manufactured continuously by delivering a web of reinforce ⁇ ment material to a nozzle which enables two mutually concen ⁇ tric rubber hosing layers to be extruded continuously.
• the web of reinforcement material passes through the nozzle, the web is curved or rounded to a diameter which is essentially the same as the outer diameter of the extruded inner rubber layer and is caused to embrace the inner rubber layer, whereafter the outer rubber layer is extruded onto the reinforcement layer.
• the hose is vulcanized in vulcanization apparatus herefor, therewith further enhancing the adhesion of the two rubber layers one with the other.
• the reinforcement overlaps the overlapping parts can be adhered together without requiring special means, for instance by heat-treatment in the vulcanization process or optionally in a separate heating step.
• Nozzles which are intended for producing hosing that includes woven reinforcements are commercially available. These nozzles can be modified to employ thermoplastic reinforce- ment ⁇ .
• One such nozzle is the Swiss so-called GVS-Kopf intended for hoses having inner diameters of from " up to
• Figures 1 and 2 are cross-sectional views of different hose construc ⁇ tions;
• Figure 3 is an enlarged cros ⁇ -sectional view of part of a hose wall;
• Figure 4 is a perspective view of a hose and shows part of the hose cut away;
• Figure 5 illustrates a preferred net structure according to the invention.
• Figure l illustrates an inventive hose 10.
• the hose 10 is compri ⁇ ed of an outer rubber layer 11, a reinforcement layer 12 and an inner rubber layer 13.
• the outer rubber layer 11 has a thickness of 1-2 mm, at least in the case of suction hoses, and is comprised of a rubber of the lowest possible density.
• the reinforcement layer suitably has a thickness of 1-2 mm and is comprised of thermoplastic, suitable qualities in this regard being polyester or poly- amide, for instance polya ide 12 (PA12).
• PA12 polya ide 12
• the inner rubber layer 13 is made of ⁇ o-called Food Grade-type rubber and ⁇ uitably has a thickness of 1-2 mm.
• Figure 2 shows a hose 10 similar to that shown in Figure 1 but with the exception that the reinforcement layer 12 does not fully embrace the inner rubber layer 13 and therewith leaves an area in which the outer and the inner rubber layers (11, 13) are in direct contact with one another along a surface 14, these rubber layers generating strong adhesion forces in the vulcanized process. For the sake of illustra ⁇ tion, no meshe ⁇ have been shown in the reinforcement layer 12.
• FIG 3 is an enlarged view of part of the hose 10 shown in Figures l and 2.
• the section has been laid transversely through the meshes in the reinforcement layer 12, and hence only the longitudinally extending threads in the reinforce- ment layer 12 are shown.
• adhesion of the connecting surface 14 between the two rubber layers 11, 13 is seen only between the threads in the reinforcement layer 12.
• Figure 4 illustrates a preferred hose 10.
• the illustrated hose has been cut away to show the three layers of the ho ⁇ e, i.e. the outer rubber layer 11, the reinforcement layer 12 and me ⁇ hes 16 in a checkered pattern, and the inner rubber layer 13.
• Figure 5 Show ⁇ a reinforcement layer 12 in a generally natural ⁇ ize and in the form of a web in it ⁇ vertical direction.
• the left and the right defining edges 17 thus form the outer edges of the web, whereas the upper and lower defining lines 18 are ⁇ imply contemplated cut ⁇ acro ⁇ the web.
• the reinforcement layer 12 is compri ⁇ ed of vertic ⁇ ally extending round- ⁇ ection thread ⁇ 19, a ⁇ illustrated in an enlarged cross-sectional view A, and obliquely extending bands 20.
• An example of the cross-sectional shape of the bands is shown in the separate enlarged view B.
• the thread ⁇ 19 and the bands 20 are joined together at their respective intersection points 21, for instance by fusion-bonding.
• the threads 19 and the bands 20 form an angle 21 other than 90°, this angle preferably lying within the range of 20-85°, more preferably about 55°.
• the distance between the vertical thread ⁇ 19 is suitably about 8-9 mm, while the distance between the bands is about 5-6 mm.

Landscapes

• Engineering & Computer Science (AREA)
• General Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Rigid Pipes And Flexible Pipes (AREA)
• Laminated Bodies (AREA)

Applications Claiming Priority (3)

Publications (1)

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ID=20395692

Family Applications (1)

Country Status (4)

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Family Cites Families (4)

• 1994
  • 1994-10-21 SE SE9403600A patent/SE9403600L/sv not_active IP Right Cessation
• 1995
  • 1995-10-20 WO PCT/SE1995/001239 patent/WO1996012909A1/en not_active Application Discontinuation
  • 1995-10-20 AU AU38204/95A patent/AU3820495A/en not_active Abandoned
  • 1995-10-20 EP EP95936165A patent/EP0803038A1/en not_active Withdrawn

Non-Patent Citations (1)

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