TH74712B - How to produce escalator handrails - Google Patents

Abstract

In an active escalator handrail, a metal steel wire is designed to have a wire. A number of concentric and spiral elements The aim is to improve the tensile strength of the steel wire. Metals in relation to thermoplastic resins And keeping the tension constant The escalator handrail (30) of this invention is unique: Metal steel wire (3) consists of a concentric element wire (8) and a number of strands (9) placed in order to surround the concentric element wire (8); The distance between the center element wire (8) and each strand (9) is the same at all positions in the direction. Through the expansion of the concentric element wire (8) and spiral (9); And the thermoplastic resin (10) was added between the concentric element wire (8) and the helix (9) without forming a gap:

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: Amendment 04/02/2019 Page 1 of the number 1 Clause 1. How to manufacture escalator handrails which are composed of composite materials that combine To wire Steel, metal and thermoplastic resin That consists of: metal steel wire manufacturing process with wire laying, concentric elements and number of spirals. One so that a certain number of threads surround the center element wire, and apply tension to the Such as in the direction of expansion of the concentric element wire and the spiral so that each distance Between the center element wire and each strand are equal To produce metal steel wire; The process of pre-heating by heating the metal steel wire to temperature Equal to or greater than the temperature of the thermoplastic resin in the molten state; The process of forming a composite material with the inclusion of a metal steel wire that is heated in The process of pre-heating the thermoplastic resin in a molten state, and the extrusion. It leaves the socket which is finished into a cross-section of the escalator handrail to form a composite material; And a cooling process by forcing the composite material to be cooled in the process of Composite material molding -------------------------------------------------- ------------------------ ------ 15/06/2018 ------ (OCR) page 1 of the number 1 page Disclaimer 1. Method of manufacture of escalator handrails made of composite materials including wire. Steel, metal and thermoplastic resin That consists of: metal steel wire manufacturing process with wire laying, concentric elements and number of spirals. One so that a certain number of threads surround the center element wire, and apply tension to the Such as in the direction of expansion of the concentric element wire and the spiral so that each distance Between the center element wire and each strand are equal To produce metal steel wire; The process of pre-heating by heating the metal steel wire to temperature Equal to or greater than the temperature of the thermoplastic resin in the molten state; The process of forming a composite material with the inclusion of a metal steel wire that is heated in The process of pre-heating the thermoplastic resin in a molten state, and the extrusion. It leaves the socket which is finished into a cross-section of the escalator handrail to form a composite material; And a cooling process by forcing the composite material to be cooled in the process of Composite molding 2. Manufacturing method of claim holder 1, where in composite molding process: the internal temperature of the mold is regulated to the temperature of the resin thermos. Molastic in a molten state; And the injection pressure of the thermoplastic resin in the molten state that is injected into the crucible is controlled. So that the distance between the center element wire and each strand is maintained within the That can be accepted And gaps due to loss, the thermoplastic resin is not formed between the wire Concentric and threaded elements 3. How to manufacture escalator handrails of claim 1 or item 2, where thermoplastic resins Plastics to be fed while forming the composite material is heated to viscosity. That is reduced to the maximum value without going through decay ------------ 1. Escalator handrail, which is composed of composite material including metal steel wire. And thermoplastic resin where: a metal steel wire is composed of a central element wire and a number of threads that are Placed so that the wire surrounds the concentric elements; The distance between the center element wire and each strand is the same at every position. Position in the direction of expansion of the concentric element wire and thread; And the thermoplastic resin is added between the concentric element wire and the helix without forming gaps. 2. Escalator handrail of 1st claim, where in the concentric element wire and spiral the tension is maintained in the expansion direction of the concentric element wire and the spiral. 3. Escalator handrail of claim 1 or 2, where the wire, concentric elements and The strands are strands in which parts of the metal wire are twisted together. 4. The escalator handrail of any item in Claims 1 through 3 that is assembled with resin. Thermoplastic one, a thermoplastic resin that is added between the central element wire and Spiral in steel wire, metal And a second thermoplastic resin molded onto the exposed part. Of the first thermoplastic resin Where one thermoplastic resin covers a metal steel wire And thickness from the surface On the inside facing the escalator, the handrail is fixed to the outside surface of the protruding part. On the side opposite to the inner surface Which is in the range of two times the height of the metal steel wire in Thickness direction of thermoplastic resin 5. Escalator handrail of any one of claims 1 to 3 where thermoplastic resin The plastics, whose viscosity was reduced to the lowest value, did not undergo decomposition while being added to the Metal steel wire 6. Escalator handrail of claim 4, where the first thermoplastic resin is resin. Thermoplastic, whose viscosity is reduced to the lowest through decomposition as it is added Into the metal steel wire 7.Production method of escalator handrails made of composite materials including wire. Steel, metal and thermoplastic resin That includes: metal steel wire manufacturing process with wire laying, concentric and helix elements. So that a certain number of threads surround the center element wire, and the tension is used With such things in the direction of expansion of the concentric element wire and the spiral so that the distance but The distance between the center element wire and each strand is equalized. To produce metal steel wire; The process of pre-heating by heating the metal steel wire to temperature Equal to or greater than the temperature of the thermoplastic resin in the molten state; Process for forming a composite material by joining a steel wire, a metal that is heated in The process of pre-heating with thermoplastic resin in molten state, and extrusion It leaves the socket which is finished into the cross-section of the escalator handrail to form composite materials; And forcing the composite material to be formed in the composite cold forming process. 8. Manufacturing method of the escalator handrail of claim 7 where, in the composite molding process: the internal temperature of the mold is controlled to be equal to the temperature of the thermoplastic resin in the annealed condition. striped; And the injection pressure of the thermoplastic resin in the molten state that is injected into the crucible is controlled. So that the distance between the center element wire and each strand is maintained within the That can be accepted And gaps due to loss, the thermoplastic resin is not formed between the wire Concentric elements with spirals 9. Manufacturing method of handrails for movement of claim 7 or 8 by thermoplastic resin. Plastics to be fed during the forming process, the composite material is heated to have viscosity. That is reduced to the lowest value without going through decay.