JP3182708U - Composite steel strand with epoxy resin coating - Google Patents

Abstract

Disclosed is an epoxy resin-coated composite steel strand that can reduce transportation costs.
An epoxy resin-coated composite steel strand has an outer periphery of a strand bundle 1 coated with an epoxy resin coating layer 2, and an elastic sleeve tube 3 is further fitted outside the strand bundle 1 provided with the epoxy resin coating layer 2. In addition, the inner diameter of the elastic sleeve tube 3 is larger than the outer diameter of the strand bundle 1 to which the epoxy resin coating layer 2 is applied, and the steel strand structure can be installed by fitting the elastic sleeve tube 3 outside. Provides a space for expansion and contraction, reduces the occurrence of cracks, prevents the inner strand bundle 1 from being oxidized due to corrosion, and affects the use effect. Moreover, friction during the transport process is against the epoxy resin coating layer 2 To prevent damage and It is possible to reduce the cost.
[Selection] Figure 1

Description

  The present invention relates to prestressed steel strands, and more particularly to epoxy resin coated composite steel strands.

  Currently, the basic structure of prestressed steel strands is composed of one core strand and several side strands. It usually does not have anticorrosion performance. When used in bridges or other special cases, the force-receiving material other than the building base is completely exposed to the atmosphere. Therefore, it is very easily corroded by corrosion and affects the use performance.

  In order to solve the above problems, the applicant of the present invention once developed an epoxy resin coating layer steel strand having an anticorrosion function. As disclosed in Patent Document 1 “Epoxy resin coating layer steel strand and manufacturing method thereof”, it applies an epoxy resin coating layer having a corrosion resistance function to the outer periphery of an existing steel strand. This type of structure can effectively provide corrosion resistance performance to the steel strands and can enhance the use effect.

  However, the steel structure or wire is constantly in a small amount of contraction or extension due to the imbalance of the building stage power. For this reason, when this state becomes longer, cracks of various degrees occur on the surfaces of these materials. Since the epoxy resin coating layer only adheres to the surface of the steel strand, the cracked position easily corrodes and oxidizes, shortening the service life, this type of architectural design, It will lead to minor problems in construction and use.

In addition, if the surface of the product is subjected to friction during the transportation process, the epoxy resin coating layer on the surface is peeled off, and the steel strand inside is exposed. Thereby, it corrodes easily and affects a use effect. Therefore, the request | requirement with respect to a transportation process becomes high and raises the transportation cost. Based on the above analysis, the inventor studied existing steel strand structures and developed the present invention.
The present invention has been made in view of the above-mentioned drawbacks of conventional epoxy resin-coated steel strands.

Chinese Patent Application No. 03140214.3

  The problem to be solved by the present invention is to provide an epoxy resin-coated composite steel strand that can effectively reduce the occurrence of cracks, increase the effect of use, and reduce the transportation cost.

In order to solve the above problems, the present invention provides the following composite steel strands coated with epoxy resin.
Epoxy resin coated composite steel strand is coated with an epoxy resin coating layer on the outer periphery of the strand bundle,
Further, an elastic sleeve tube is fitted and installed outside the strand bundle provided with the epoxy resin coating layer,
The inner diameter of the elastic sleeve tube is larger than the outer diameter of the strand bundle coated with the epoxy resin coating layer,
The elastic sleeve tube is manufactured using rubber molding technology,
The elastic sleeve tube is further fitted and installed outside the strand bundle provided with the epoxy resin coating layer, and has the following advantages:
(1) Since the inner diameter of the elastic sleeve tube is larger than the outer diameter of the strand bundle, an elastic space is provided for the strand bundle, and the elastic sleeve tube is made of an elastic material and uses its elastic action to prestress, Even if the tension bundle is realized and the strand bundle is in a contracted or extended state, it does not cause the elastic sleeve tube to rupture, and the service life can be extended.
(2) The elastic sleeve tube exhibits a protective action outside and prevents the epoxy resin coating layer from being damaged during the transportation process, thus reducing the transportation cost.

  The epoxy resin-coated composite steel strand of the present invention can effectively reduce the occurrence of cracks, increase the use effect, and reduce the transportation cost.

It is a structure schematic diagram of the present invention.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

  As shown in FIG. 1, a composite steel strand of the present invention epoxy resin coating includes a strand bundle 1, an epoxy resin coating layer 2, and an elastic sleeve tube 3.

  The strand bundle 1 includes a single core strand 11 and several side strands 12. Moreover, the side strands 12 surround and surround the core strand 11. The epoxy resin coating layer 2 coats the outer periphery of the strand bundle 1 completed by entanglement, and exhibits the effect of preventing corrosion.

  An elastic sleeve tube 3 having elastic performance is further fitted and installed outside the strand bundle 1 to which the epoxy resin coating layer 2 is applied. Moreover, the inner diameter of the elastic sleeve tube 3 is larger than the outer diameter of the strand bundle 1 after the epoxy resin coating layer 2 is applied. The elastic sleeve tube 3 is manufactured using a rubber molding technique and uses its elastic action to provide a larger elastic expansion / contraction space for the steel strand. Thereby, the design of a prestressed and post-tension is utilized, and the elastic sleeve tube 3 is not torn by the extension of the strand bundle 1.

  Further, the external elastic sleeve tube 3 can further exert a protective action. Thereby, the epoxy resin coating layer 2 can be prevented from being damaged by friction during the transportation process, and the inner strand bundle 1 is exposed to the atmosphere and corroded and oxidized. In this way, demands on the transportation process can be reduced, transportation costs can be reduced, and transportation can be facilitated.

  As described above, in the composite steel strand of the present invention epoxy resin coating, the elastic sleeve tube 3 is fitted and installed outside the strand bundle 1 provided with the epoxy resin coating layer 2 to enhance the elasticity and prevent the occurrence of cracks. , Transportation can be facilitated and transportation costs can be reduced.

  The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. All equivalent applications based on the spirit of the present invention, parts (structures) conversion, replacement, and quantity increase / decrease shall be included in the protection scope of the present invention.

  The present invention has the novelty that is a requirement for utility model registration, has sufficient inventive step compared to conventional similar products, has high practicality, meets the needs of society, and the industrial utility value is very Big.

1 Strand Bundle 11 Core Strand 12 Side Strand 2 Epoxy Resin Coating Layer 3 Elastic Sleeve Tube

Claims (2)

A composite steel strand of an epoxy resin coating for coating an outer periphery of a strand bundle with an epoxy resin coating layer,
Furthermore, an elastic sleeve tube is fitted and installed outside the strand bundle provided with the epoxy resin coating layer,
Moreover, an epoxy resin-coated composite steel strand is characterized in that an inner diameter of the elastic sleeve tube is formed larger than an outer diameter of a strand bundle coated with the epoxy resin coating layer.   The composite steel strand of epoxy resin coating according to claim 1, wherein the elastic sleeve tube is formed using a rubber molding technique.