RU2202683C1 - Process of manufacture of bundle of reinforced cables with anticorrosion protection and bundle of reinforced cables with anticorrosion protection - Google Patents

Abstract

FIELD: construction industry, road building. SUBSTANCE: process can be widely used for manufacture of reinforced concrete structures employed in construction and reconstruction of bridges. Process of manufacture of bundle includes manufacture of at least two reinforced cables, each cable being covered by preservative lubricant on which sheath of thermoplastic polymer material and protective sheath made of thermoplastic polymer material of same or another chemical composition are put. If bundle is manufactured from more than two reinforced cables their longitudinal axes are arranged with maximum displacement from plane passing through at least two specified axes by value not exceeding diameter of cable. While bundle is manufactured from more than two reinforced cables their longitudinal axes in cross-section of bundle can be arranged along periodic curve. Sheath of reinforced cable made of thermoplastic polymer material and protective sheath of bundle of reinforced cable are intercoupled when protective sheath is extruded. Sheath of reinforced cable of thermoplastic polymer material and protective sheath of bundle of reinforced cable can be manufactured for relative interdisplacement. At least part of physical-mechanical indices, for instance, strength, hardness, rigidity of protective sheath of bundle of reinforced cable exceed corresponding indices of sheath of reinforced cable. Bundle of reinforced cable with anticorrosion protection can have form of belt. Polymer material of protective sheath of bundle of reinforced cables includes pigments. EFFECT: expanded application field of bundle of reinforced cable with anticorrosion protection, increased reliability and service life of articles with bundles of reinforced cables, reduced labor input in their manufacture. 12 cl, 2 dwg

Description

 The invention relates to the field of construction, mainly road construction, and can be widely applied in the manufacture of reinforced concrete structures used in the construction and reconstruction of bridges, namely: reinforced concrete structures prestressed in the longitudinal and transverse directions, external reinforcement of structures, in the form of cable-stayed cable-stayed bridges, device sprengelny systems, etc.

 Methods of manufacturing reinforcing ropes with corrosion protection are widely known, in which a layer or layers are applied to a reinforced rope coated with a grease layer, for example, by winding a polymer, mainly polyethylene, film (patent RU 2135686, Е 04 С 5/12, 1998) .

 Reinforcing ropes are also known, which are a component of a reinforcing rope wire with a lubricant applied to it, placed in a polyvinyl chloride tube, which does not exclude the presence of moisture in it (Overview. Construction and architecture, building structures, ser. 11, issue 6. Tensioned reinforcement reinforced concrete structures in the USSR and abroad. - M., 1983, p. 6, Fig. 2).

 The closest known ones are a bundle of reinforcing ropes with anti-corrosion protection and a method for manufacturing a bundle of reinforcing ropes with anti-corrosion protection, which include applying lubricant to the bundle forming at least two reinforcing ropes of preservative lubricant and then applying reinforcing rope sheath to each of them from a thermoplastic polymeric material, subsequent cooling and applying a protective sheath along the form e ribbon of thermoplastic polymeric material enclosing at least a tangential contour shells reinforcing ropes (EP patent 0896107, Cl. E 04 C 5/08, 10.02.1999).

 Known technical solutions have a limited scope with a complex manufacturing process and a limited length of products. The objective of the present invention is to expand the field of use of bundles of reinforcing ropes with anti-corrosion protection, as well as improving the reliability and durability of products with bundles of reinforcing ropes while reducing the complexity of their manufacture.

 In a bundle of reinforcing ropes with corrosion protection this is achieved by the fact that it is made in the form of a tape and includes at least two reinforcing ropes, each of which is coated with a preservative lubricant, on which a reinforcing rope sheath made of thermoplastic polymer material is applied, and a sheath protective sheath reinforcing ropes made of thermoplastic polymer material of the same or different chemical composition and covering at least tangentially the contour of the shells of reinforcing ropes. When the beam is made of more than two reinforcing ropes, their longitudinal axes are positioned with a maximum offset from the plane passing through at least a pair of these axes by an amount not exceeding the diameter of the rope. When the beam is made of more than two reinforcing ropes, their longitudinal axes in the cross section of the beam are arranged along a periodic curve. The sheath of the reinforcing rope made of thermoplastic polymer material and the protective sheath of the bundle of reinforcing ropes are interconnected during extrusion of the protective sheath. The sheath of the reinforcing rope of thermoplastic polymer material and the protective sheath of the bundle of reinforcing ropes can be arranged with the possibility of relative longitudinal movement between each other. At least part of the physico-mechanical parameters, for example, strength, hardness, stiffness, protective sheath of the bundle of reinforcing ropes exceeds the corresponding parameters of the sheath of the reinforcing rope. The polymer material of the protective sheath of the bundle of reinforcing ropes has pigments.

 In the method of manufacturing a bundle of reinforcing ropes with corrosion protection, this is achieved by the fact that each of at least two reinforcing ropes is preferably coated with a dipping preservative lubricant in a bath, followed by applying to each of them by extruding the reinforcing rope sheath from a thermoplastic polymer material, cooling preferably a water-applied sheath, followed by application of a thermoplastic protective sheath to the bundle of reinforcing ropes formed in the tape dimensional material of the same or different chemical composition, with the grasp of at least tangentially circuit shells reinforcing ropes. When a beam is formed from more than two reinforcing ropes, their longitudinal axes, before applying the protective sheath of the beam, are positioned with a maximum offset from the plane passing through at least a pair of these axes by an amount not exceeding the diameter of the rope. When the beam is made of more than two reinforcing ropes, their longitudinal axis in the cross section of the beam before applying the protective sheath of the beam is arranged along a periodic curve. When the beam is made of more than two reinforcing ropes, their longitudinal axes in the cross section of the beam after applying the protective sheath of the beam are arranged along a periodic curve equidistantly to the surface of the specified protective sheath. The sheath of the reinforcing rope made of thermoplastic polymeric material and the protective sheath of the bundle of reinforcing ropes are connected, mainly along the line, to each other during extrusion of the protective sheath. The shell of the reinforcing rope made of thermoplastic polymer material and the protective sheath of the bundle of reinforcing ropes during extrusion may have the possibility of longitudinal movement between each other. The protective sheath of the bundle of reinforcing ropes can be performed with physical and mechanical properties, for example, strength, hardness, rigidity, exceeding the corresponding parameters of the sheath of the reinforcing rope. The protective sheath of the bundle of reinforcing ropes is performed by extruding from a polymer material having pigments or reflective inclusions. The protective sheath of the bundle of reinforcing ropes can also be performed by extrusion from a transparent polymeric material, and the sheath of the reinforcing rope can be made of a polymeric material having pigments or reflective inclusions.

The invention is illustrated by drawings, where:
figure 1 presents a General view of a flat bundle of two reinforcing ropes with corrosion protection;
figure 2 - the same, of the three reinforcing ropes with corrosion protection with a parallel displacement of their axes.

 The bundle of reinforcing ropes 1 includes at least two reinforcing ropes 1, each of which is coated with preservative lubricant 2, on which a sheath 3 of reinforcing rope of thermoplastic polymer material is applied. The protective sheath 4 of the bundle of reinforcing ropes 1 is made of a thermoplastic polymer material of the same or different chemical composition and covers at least tangentially (with the formation of free cavities between them) the contour of the sheaths of 3 reinforcing ropes 1. When making a bundle of more than two reinforcing ropes ropes their longitudinal axis are located with a maximum offset from the plane passing at least through a pair of these axes by a value of H not exceeding the diameter of the rope 1 (see figure 2). When the beam is made of more than two reinforcing ropes 1, their longitudinal axes in the cross section of the beam can be located along a periodic curve (not shown in the drawings). The sheath 3 of the reinforcing rope of thermoplastic polymer material and the sheath 4 of the bundle of reinforcing ropes 1 are interconnected during extrusion of the sheath 4 or may have the possibility of relative longitudinal movement between them. At least part of the physical and mechanical parameters, for example, strength, hardness, stiffness, protective sheath 4 of the bundle of reinforcing ropes 1 exceeds the corresponding parameters of the sheath 3 of the reinforcing rope. The bundle of reinforcing ropes 1 with corrosion protection is made in the form of a tape. The polymeric material of the protective sheath 4 of the bundle of reinforcing ropes has pigments or reflective inclusions. The protective sheath 4 of the bundle of reinforcing ropes can be made of transparent polymeric material, and the sheath 3 of the reinforcing rope can be made of a polymeric material having pigments or reflective inclusions.

 For the manufacture of bundles of reinforcing ropes with corrosion protection, a technological line is used that implements the method described above and contains coils with ropes, a rope lubrication station, a broaching device, an extruder for each rope, a cooling water device mounted behind it, circular cutting knives, a second extruder on a bundle ropes and a cooling water device mounted behind it, a broaching device, supporting devices with hydraulic cylinders and a bay with a winding device.

 At the same time, the durability of beams and reinforced concrete structures with their use is significantly increased, installation of channel formers and injection of channels under construction conditions are excluded, it becomes possible to adjust the tension of reinforcing beams during operation due to the guaranteed uniform free movement of the rope in the protective sheath provided by the guaranteed presence grease. It is possible to use beams in cable-stayed structures and for external reinforcement of structures and to regulate prestressing forces by installing additional beams during operation. Significantly reduced the complexity of the work.

Claims (12)

 1. A bundle of reinforcing ropes with corrosion protection, made in the form of a tape and comprising at least two reinforcing ropes, each of which is coated with preservative grease, on which a reinforcing rope sheath is made of thermoplastic polymer material, and a reinforcing rope bundle sheath made from a thermoplastic polymer material of the same or different chemical composition and covering at least the tangent contour of the shells of reinforcing ropes, while the shells are interconnected with extruding the sheath, and the longitudinal axis of the ropes are located with a maximum offset from the plane passing at least through a pair of these axes by an amount not exceeding the diameter of the rope.  2. A bundle of reinforcing ropes with corrosion protection according to claim 1, in which when it is made of more than two reinforcing ropes, their longitudinal axes in the beam cross section are arranged along a periodic curve.  3. The bundle of reinforcing ropes with corrosion protection according to claim 1, in which the sheath of the reinforcing rope of thermoplastic polymer material and the protective sheath of the bundle of reinforcing ropes has the possibility of relative longitudinal movement between each other.  4. A bundle of reinforcing ropes with corrosion protection according to claim 1, in which at least part of the physical and mechanical properties, for example, strength, hardness, stiffness, protective sheath of the bundle of reinforcing ropes exceeds the corresponding parameters of the sheath of the reinforcing rope.  5. A bundle of reinforcing ropes with corrosion protection according to any one of paragraphs, characterized in that the polymer material of the protective sheath of the bundle of reinforcing ropes which has pigments.  6. A method of manufacturing a bundle of reinforcing ropes with corrosion protection, in which each of at least two reinforcing ropes is preferably coated with a dipping preservative lubricant in a bath and then applied to each of them by extruding the sheath of the reinforcing rope from a thermoplastic polymer material, while the longitudinal axes are positioned with a maximum offset from the plane passing through at least two of these axes by an amount not exceeding the diameter of the rope, followed by cooling, preferably water, the applied sheath and then applying a protective sheath in the form of a tape of thermoplastic polymer material of the same or another chemical composition onto the bundle of reinforcing ropes formed into a tape, covering at least along the tangent contour of the sheaths of the reinforcing ropes, while the sheath of the reinforcing the rope and the protective sheath of the bundle of reinforcing ropes are connected, mainly along the line, to each other during extrusion of the protective sheath.  7. A method of manufacturing a bundle of reinforcing ropes with anti-corrosion protection according to claim 6, in which when it is made of more than two reinforcing ropes, their longitudinal axis in the cross section of the bundle before applying the protective sheath of the bundle is arranged along a periodic curve.  8. A method of manufacturing a bundle of reinforcing ropes with anti-corrosion protection according to claim 6, in which when it is made of more than two reinforcing ropes, their longitudinal axes in the cross section of the bundle after applying the protective sheath of the beam are arranged along a periodic curve equidistant to the surface of the specified protective sheath.  9. A method of manufacturing a bundle of reinforcing ropes with anti-corrosion protection according to claim 6, wherein the sheath of the reinforcing rope of thermoplastic polymer material and the protective sheath of the bundle of reinforcing ropes during extrusion are arranged for longitudinal movement between each other.  10. A method of manufacturing a bundle of reinforcing ropes with anti-corrosion protection according to claim 6, in which the protective sheath of the bundle of reinforcing ropes is performed with physical and mechanical properties, for example, strength, hardness, rigidity, exceeding the corresponding parameters of the sheath of the reinforcing rope.  11. A method of manufacturing a bundle of reinforcing ropes with corrosion protection according to any one of paragraphs, in which the protective sheath of the bundle of reinforcing ropes is made of a polymeric material having pigments or reflective inclusions.  12. A method of manufacturing a bundle of reinforcing ropes with corrosion protection according to any one of claims 6 to 11, in which the protective sheath of the bundle of reinforcing ropes is made by extrusion of a transparent polymeric material, and the sheath of the reinforcing rope is made of a polymeric material having pigments or reflective inclusions.

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