RU2433228C1 - Reinforcement frame of reinforced concrete products - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: vertical reinforcement is made in the form of a vertically installed plate and is arranged between the upper and lower longitudinal fittings. Besides, the plate is made in the form of a bent section of sinusoid or rectangular or trapezoidal or triangular shape.

EFFECT: increased bearing capacity of reinforcement frame, higher manufacturability of reinforcement frame and reinforced concrete product as a whole.

5 cl, 7 dwg

Description

The invention relates to the field of construction, namely to reinforcing cages of reinforced concrete products, and can be used in the manufacture of foundations, floor slabs, wall panels, crossbars, beams, lintels, intended for the construction of buildings, coatings and floors of buildings, spans of bridges, overpasses and other

Known reinforcing cage according to the author's certificate of the USSR No. 1486580, class. E04C 5/06, 1989, comprising longitudinal and transverse reinforcement, inclined rods, support and vertical plates; vertical plates are fixed at each end of the inclined rods, through which these rods are attached to the transverse reinforcement of the supporting parts of the beam and to the lower longitudinal reinforcement; inclined rods are made of twin rods.

The main disadvantage of this reinforcing cage is its reduced bearing capacity, due to the minimum metal consumption incorporated in it and the simplified manufacturing technology, which relates the use of this cage in less critical structures.

Known reinforcing frame reinforced concrete beams according to the author's certificate of the USSR No. 1783091, class. E04C 5/06, 1992, adopted by the applicant for the prototype. It contains upper and lower longitudinal reinforcement, transverse reinforcement and upper embedded and support plates with vertical and horizontal anchor rods, and the support plates are made with open rectangular cutouts in which horizontal anchor rods are placed; the lower longitudinal reinforcement and horizontal anchor rods are made parallel to each other and offset from each other by the amount of trimming by the bends in the upper zone of the beam, fixed in the upper embedded plates, and the support plates are made with holes through which the bends of the lower longitudinal reinforcement are passed.

However, this reinforcing cage does not have a high bearing capacity while at the same time low metal consumption, it cannot be used in other designs of reinforced concrete products, except for the beam.

An object of the invention is to increase the bearing capacity of the reinforcing cage, increasing the manufacturability of the manufacturing of the reinforcing cage and the reinforced concrete product as a whole.

The problem is solved in that in the proposed solution, the vertical reinforcement is made in the form of a vertically mounted plate placed and fixed between the upper and lower longitudinal reinforcement, and the plate is made in the form of a bent profile sinusoidal or rectangular, or trapezoidal, or triangular in shape.

In addition, the plate is made either with trimming in the supporting part, or without trimming.

In addition, the plate is made either along the entire length of the frame, or on its supporting part, and along the length of the plate on the supporting part is made not less than the height of the product.

In addition, at least two plates are installed in the supporting parts of the product, holes are made in each plate, and the holes are made coaxial in each pair of plates of each supporting part and are designed to accommodate additional transverse reinforcement.

In addition, the plate is equipped with stiffeners, which are made either of reinforcement, or of a strip, corner or channel, and are fastened to the plate by either welding or fixing elements.

Figure 1 shows the complete reinforcement cage, front view, vertical reinforcement made in the form of a plate mounted on the entire length of the reinforcing cage, without trimming;

figure 2 - complete reinforcement cage, vertical reinforcement made in the form of a plate mounted on the entire length of the reinforcing cage, with trimming;

figure 3 - reinforcing cage with vertical reinforcement made in the form of a plate installed in the supporting part of the reinforcing cage, without undercutting;

figure 4 - reinforcing cage with vertical reinforcement made in the form of a plate installed in the supporting part of the reinforcing cage, with trimming;

figure 5 - placement of stiffeners on the plate;

figure 6 - types of bent profiles of the plate;

7 - examples of stiffeners.

The reinforcing frame of reinforced concrete products contains an upper longitudinal reinforcement 1 and a lower longitudinal reinforcement 2, indicating the dimensions of the frame in the upper and lower planes. The upper longitudinal reinforcement 1 is interconnected by the upper transverse reinforcement 3, and the lower longitudinal reinforcement 2 is interconnected by the lower transverse reinforcement 4, forming the upper and lower reinforcing mesh. Between each upper longitudinal reinforcement 1 and lower longitudinal reinforcement 2 a vertical reinforcement is placed and fixed, which is made in the form of a vertically mounted plate 5. In the supporting part of the reinforcing cage, an embedded plate 6 is installed on the upper reinforcing mesh, and installed on the lower reinforcing mesh from the side of its base support plate 7. In the case of manufacturing a reinforced concrete product with trim on the support part, the support plate 7 will be installed on the trim. In this case, the plate 5 of the vertical reinforcement is also trimmed.

The most critical, heavily loaded reinforced concrete products are made with a plate 5 installed along the entire length of the reinforcing cage. Less loaded reinforced concrete products are performed with the plate 5 only in the supporting part of the reinforcing cage, and along the length of the plate 5 on the supporting part no less than the height of the product is made, and the length of the reinforcing cage not occupied by the plates 5 is reinforced with ordinary vertical reinforcing bars 8. Moreover, to increase the rigidity of the reinforcing the frame and the bearing capacity of the product in each plate 5, which are installed in the supporting parts of the product of at least two, holes 9 are made, coaxial in each pair of plates 5 of each supporting part, for displacements in them of additional transverse reinforcement 10.

The plate 5 of the vertical reinforcement can be made in the form of a bent profile sinusoidal or rectangular, or trapezoidal, or triangular in shape. To give even greater rigidity to the reinforcing cage and the bearing capacity of the reinforced concrete product, the plate 5 can be provided with stiffeners 11. The stiffeners 11 can be made either from reinforcement, or from a strip, a corner, or, in some cases, from a channel and fastened to the plate 5 by or welding, or fasteners.

The reinforcing cage is assembled according to well-known technology, only instead of the bar reinforcement installed vertically, they are installed in the form of vertical reinforcement of the plate 5. Previously, the plates 5 are made of a given profile and, if necessary, are provided with stiffeners 11. For the most critical reinforced concrete products, plates 5 are made for the whole the length of the reinforcing cage, and for less critical reinforced concrete products, plates 5 are made equal in length to at least the height of the product and installed only in On the other hand, the rest of the reinforcing cage is reinforced with ordinary vertical reinforcing bars 8. In this case, the supporting part can be performed either with undercutting or without undercutting. Then the plates used for the manufacture of the reinforcing cage are made in the supporting part also with trimming.

Plates 5 already installed and fixed in the reinforcing cage, or installed along the entire length, or only in the supporting part, are connected in pairs by additional transverse reinforcement 10, which is installed in the holes 9 and fixed in them, for example by welding. Thereby increasing the bearing capacity of the reinforced concrete product.

After the complete and final assembly of the reinforcing cage, it is installed in a tooling, poured with concrete and, after reaching the formwork strength, the tool is disassembled and a finished product is obtained.

Using the proposed technical solution allowed to significantly increase the bearing capacity of the reinforcing cage, to improve the manufacturability of the manufacturing of the reinforcing cage and reinforced concrete products in general. The bearing capacity of the reinforcing cage was increased by using instead of the usual reinforcement used as vertical reinforcement, a plate in the form of a bent profile, for example, in a sinusoidal shape, or in the shape of a rectangle, or in the form of a trapezoid, or in the form of a triangle. And also due to the pairwise connection of the plates in the supporting part with additional transverse reinforcement. In addition, the bearing capacity is also increased due to the fact that the plate is provided with stiffeners, which are made either from reinforcement, or from a strip, corner or channel and fastened to the plate by means of either welding or fastening elements.

The high manufacturability of the manufacture of the reinforcing cage is due to the unification of the elements used, in particular the plate, and the equipment used to manufacture the plate, which allows to obtain a given profile when changing the forming elements.

Therefore, the proposed reinforcing cage allows not only to increase the bearing capacity and manufacturability, but also to reduce the complexity, increase accuracy and simplify the manufacture of reinforced concrete products.

Claims (5)

1. The reinforcing frame of reinforced concrete products containing upper and lower longitudinal reinforcement, vertical reinforcement, embedded parts and support plates placed in the supporting part of the reinforcing frame, characterized in that the vertical reinforcement is made in the form of a vertically mounted plate, placed and fixed between the upper and lower longitudinal reinforcement, and the plate is made in the form of a bent profile sinusoidal or rectangular, or trapezoidal, or triangular in shape. 2. The reinforcing cage according to claim 1, characterized in that the plate is made either with trimming in the supporting part, or without trimming. 3. The reinforcing cage according to claim 1, characterized in that the plate is made either along the entire length of the cage or on its supporting part, and along the length of the plate on the supporting part is made not less than the height of the product. 4. The reinforcement cage according to claim 1, characterized in that at least two plates are installed in the supporting parts of the product, holes are made in each plate, and the holes are made coaxial in each pair of plates of each supporting part and are designed to accommodate additional transverse reinforcement. 5. The reinforcing cage according to claim 1, characterized in that the plate is provided with stiffeners, which are made either of reinforcement, or of a strip, angle or channel and fastened to the plate by either welding or fastening elements.

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