DD256159A5 - PREPARED, REFURBISHED STEEL CONCRETE ELEMENT - Google Patents

Abstract

The invention relates to a prefabricated, reinforced reinforced concrete element, in particular for road and Bahnuebergaenge. The reinforcing skeleton forms a rigid grid with rectangular meshes made of polyester or epoxy resin rods laminated with the elemental glass fiber saturated with the chemohaertenden resin with the cross section in the form of a circular section. At the point crossing stave 3, the laminate fibers form a double layer. The longitudinal sections 2 and the transverse sections 1 penetrate each other at the intersection, forming monolithic nodes. The glass fiber strips saturated with the chemohaertenden resin are alternately applied. A strip of fiber on the length of 1 meter contains no more than 20 g of glass fiber. Fig. 2

Description

For this 3 pages drawings

Field of application of the invention

The invention relates to a prefabricated, reinforced reinforced concrete element, which has a reinforcement and is suitable for the construction of road and railroad crossings.

Characteristic of the known state of the art

Prefabricated reinforced concrete elements are known which have a plastic reinforcement, including those with an addition of glass fibers. Descriptions of such solutions are contained in PL-PS 116240 and in DE-PS 2262102. In PL-PS 116240 a reinforcement of the concrete in the form of a prestressed layer of glass fiber fabric is shown, in DE-PS 2262102 represents the reinforcement material is a knitted fabric made of glass fiber threads.

Another solution is shown in DE-PS 2262102, wherein a layer of film instead of the glass fiber-containing plastic forms the reinforcing element of the concrete. Furthermore, DD-PS 124821 discloses reinforced plastic reinforced concrete slabs, which are prestressed and secured to circumferentially located steel frames.

None of the known solutions for reinforcement of prefabricated reinforced concrete slabs provides a reinforced concrete element meeting the requirements.

Object of the invention

The aim of the invention is to bring a reinforced reinforced concrete element to the application that meets contemporary material requirements.

Explanation of the essence of the invention

The invention has for its object to provide a prefabricated, reinforced reinforced concrete element that can be exposed to high loads without a reinforced concrete reinforcement and meets the required parameters. According to the invention the object is achieved in that the prefabricated, reinforced reinforced concrete element, a rigid grid with rectangular mesh of polyester or epoxy resin rods, which with one with the chemo-curing resin

saturated elemental glass fiber laminated has. Instead of the crossing of bars, the laminate fibers form a double monolithic layer in which the strips of glass fibers saturated with the chemo-curing synthetic resin are alternately laid up, with a glass fiber strip of 1 meter length containing not more than 20 g. The bars forming the reinforcing grid have the shape of a circular section in their cross section.

In the alternative embodiment, the cross section of a bar of the reinforcing grid has the shape of a circular cutout with the arc, which is longer as a semicircular arc.

In another embodiment, the grid bar has a cross-section which is determined by a figure which approximates an acute-angled triangle whose convergent sides form a corner in the form of a wide arc extending to half the height of that figure.

The laminate from which the bars of the reinforcing grid are made contains from 30-75% carrier in the form of the glass fiber.

A favorable consequence of the solution according to the present invention is the elimination of the phenomenon of sliding of the elongate bars in the concrete during deflection. The tests and investigations carried out have proved that the construction of the lattice nodes, in which the fiber strips of the glass strip are alternately bonded to the binder in the form of the chemo-curing resin, secures the reinforcing bar against dislodging from the concrete and sliding against the destruction of the reinforcing element. Another advantage of the present invention is securing of the corrosion-sensitive glass fibers, in the alkaline medium, by saturating each fiber strip of the glass strip with a solid binder in the form of the chemo-curing synthetic resin.

embodiment

The invention will be explained in more detail with reference to an embodiment. In the accompanying drawing show:

Fig. 1: the reinforcement mat;

Fig.2: the reinforcing bars in section;

3: the reinforced concrete element in section;

4: the reinforced concrete element in section with cross-sectionally sickle-shaped reinforcing bars; Fig.5; 6; 7: cross-sectional shapes of the reinforcing bars.

The prefabricated reinforced concrete element reinforced with the lattice of laminate rods has, as shown in FIG. 1, a reinforcement arranged in two zones in the region of the thickness of the plate. In the upper zone 4 is the reinforcement with a grid of epoxy resin, and in the lower zone 5 - formed with a grid of polyester resin, the two types of mesh are completely interchangeable. The longitudinal bars 2 and cross bars 1 have the same cross section, in the form of a circular section 8. In another embodiment, the grid bar 7 of these bars has the. Cross-sectional shape of a circle with a curve over 180 °. In this case, the lower, the arc profile opposite surface of the grating bar 7 is convergent to the center and forms a recess along the rod axis.

As Figure 3 shows, the mats from the bars 1; 2, which form an intersection in their area of contact and are enclosed by the concrete 6. ^!

The prefabricated reinforced concrete elements reinforced with the lattice of artificial fiberglass laminated fabrics are molded in generally applied shapes. The process of the manufacturing process does not differ from the technological process used in the production of reinforced steel precast reinforced with steel bars.

Claims (5)

A prefabricated reinforced concrete element, in particular for road or railroad crossings, characterized in that a rigid grid with rectangular meshes of polyester or epoxy resin rods, which is saturated with the elemental glass fiber, is saturated with the chemo-curing resin having the section in the form of a circular section the crossing of bars (3) the laminate fibers forms a double layer and thus the skeleton of the reinforcement. <". 2. An element according to claim 1, characterized in that the longitudinal and transverse bars (1; 2) intermesh at the intersection by forming monolithic nodes in which the glass fiber strips are alternately laid alternately with the chemo-hardening resin, with a fiber strip the length of 1 meter does not contain more than 20g of glass fiber. 3. Element according to claim 2, characterized in that the bars of the reinforcing grid are made of the 30-75% carrier, in the form of the glass fiber-containing laminate. 4. Element according to claims 1 to 3, characterized in that the rigid grid is laminated with rectangular meshes of polyester or epoxy resin rods with Elementarglasfasem and saturated with chemo-hardening resin, with the cross-section in the form of a circular section (8) of the arc longer arc as a semicircle is formed, wherein instead of the crossing of bars (3), the laminate fibers lie in a double layer and form the reinforcing skeleton. 5. The element of claim 1 to 4, characterized in that the rigid grid is formed with rectangular mesh of rods preferably made of polyester or epoxy resin, laminated with the chemohärtenden resin saturated glass fiber whose cross-section of an acute-angled triangle similar to one of the base opposite corner in the form of one in the straight portions of the triangle sides at a height which is formed at half the height of the cross section approximately passing arc, wherein formed at the intersection of bars (3), the laminate fibers as a double layer forming the reinforcing grid.