RU2435002C1 - Method to reinforce reinforced concrete structures - Google Patents

Abstract

FIELD: construction. ^ SUBSTANCE: device to reinforce monolithic reinforced concrete structures with ropes, realising the stated method of reinforcement, looks, for instance, as follows. The base is the frame resting against a previously arranged section of an erected structure made of stands and a unit of reinforcement feed, including a distributing template, a set of bypass rollers and wires arranged between bypass rollers and coils with metered sections of a shaped periodical rope. The stated method of reinforcement is realised, for instance, in the following manner: neat the base of a reinforced structure the ends of the metered sections of the shaped periodical rope, which were previously wound onto coils, are fixed. The unit of reinforcement feed is supplied and fixed by the value of concrete section shaped in this cycle so that sections of metered sections of the shaped periodical rope located between the template and the previously made portion of the structure are arranged in proper direction. Reinforcement is assembled in cross directions, a curb is mounted around the installed reinforcement, further the curb is filled with concrete. After formation of a half of the structure length the metered sections are disconnected from the coils and are fixed in the bypass rollers and wires by means of braking devices of any available type. ^ EFFECT: increased strength properties and reduced prime cost of reinforcement frame. ^ 3 cl, 1 dwg

Description

The invention relates to the construction and can be used in the construction of reinforced concrete structures of great length, in particular - tunnels, dams and monolithic high-rise buildings.

A known method of reinforcing reinforced concrete structures, including the installation of non-stressed reinforcement in the direction of the longest length of the structure and in the transverse directions, cyclic erection of the formwork and filling the space inside the formwork with concrete, using hot-rolled bars of measured length connected to the joint along the length by welding or threaded bushings after the completion of the next cycle of formation of the reinforced concrete element (see Code of Rules SP 52-103-2007 "Reinforced concrete monolithic structures any ").

The disadvantages of the known method of reinforcing are the low strength properties of the reinforcing cage, both because of the mediocre strength of the reinforcement itself, in particular the low specific strength of the reinforcing bar elements and high creep, and because of the numerous joints of each reinforcing element along the length that do not allow it to perceive load as a whole, and the high cost of reinforcement caused by the low specific strength of the rod reinforcing elements and the high complexity of the reinforcement due to repeated many times along the length of rebar splicing elements.

The technical problem solved by the invention is to increase the strength properties and reduce the cost of the reinforcing cage.

The problem is solved in that in the known method of reinforcing reinforced concrete structures, including the installation of non-stressed reinforcement in the direction of the longest length of the structure and in the transverse directions, cyclic erection of the formwork and filling the space inside the formwork with concrete, according to the invention, reinforcing ropes are used as reinforcement in the direction of the longest length of the structure shaped-periodic profile, which is fixed at the base of the structure and in each of the pouring cycles is fixed between the previously formed part of the structure and the distribution template, the distribution template is fed through the bypass rollers and the guide wiring from coils located at the base of the structure, before each casting cycle, the distribution template is withdrawn from the previously formed part of the structure by the size of the formed section with the accompanying unwinding of the reinforcing ropes by half a large value, while each reinforcing element is integral along the entire length of the structure, and the connection is mutually perpendicular ments performed by reinforcement sleeves.

In this case, after the formation of half the length of the structure, the reinforcing ropes can be disconnected from the coils in order to avoid the need for an excess length of rope segments.

In addition, reinforcing ropes of shaped-periodic profile can also be used as reinforcement in the directions of a small extent of the structure.

Thanks to such a complex of technical solutions, it becomes possible to use ropes as reinforcement: the presence of a periodic profile excluding the screwing effect allows the use of ropes as such having high specific and absolute strength, relaxation and fatigue resistance; the absence of longitudinal joints allows the use of vertical reinforcement with strain hardening and to ensure uniform perception and transfer of loads by the reinforcing element. The high relaxation and fatigue resistance of the cable reinforcement allows to increase the endurance of the reinforcing cage, a large specific strength reduces the weight of the cage, lower (in terms of strength) unit cost and fewer operations for connecting reinforcing elements reduce the cost.

Distinctive features characterizing the use of reinforced concrete reinforced concrete structures as reinforcement, including a shaped-periodic profile, were not found in the known technical solutions.

A distinctive feature that characterizes the reinforcement of monolithic reinforced concrete structures with reinforcing elements that are integral over the entire height of the structure is not found in the known technical solutions.

Based on the above analysis of known sources of information, we can conclude that for a specialist the claimed method of reinforcing monolithic reinforced concrete structures does not follow explicitly from the prior art, and therefore meets the patentability condition of "inventive step".

The essence of the invention is illustrated in the drawing, which schematically shows a device for reinforcing ropes of monolithic reinforced concrete structures and its location relative to the formwork.

A device for reinforcing ropes of monolithic reinforced concrete buildings, implementing the inventive method of reinforcement, looks, for example, as follows.

The basis of the device is a frame 1, based on a previously formed section 2 of the erected structure, consisting of 3 racks, for example, telescopic (not shown), providing the ability to feed and fix the reinforcement supply unit over the fabricated level of the structure being constructed, and directly the reinforcement supply unit, including distribution template 4, a set of bypass rollers 5 and wiring 6 located between the bypass rollers 5 and coils 7 with measuring segments 8 of the shaped-periodic rope.

The inventive method of reinforcing monolithic reinforced concrete structures is carried out, for example, as follows: at the base of the reinforced structure, the ends of the measured sections 8 of the shaped-periodic rope are pre-wound on coils 7. By means of external or built-in feeding mechanisms and fixing devices of any known type, the feeding unit is fed and secured reinforcement by the value of the concrete section formed in this cycle so that those between the distribution template 4 and previously formed In the right part of the structure, sections of measuring sections 8 of the shaped-periodic rope were located in the right direction. Install the reinforcement in the transverse directions, mount the formwork 9 around the installed reinforcement, then fill the formwork 9 with concrete.

After the formation of half the length of the structure in the direction reinforced by this method, between the bypass rollers 5 and the coils 7 in the wires 6 there are sections of measuring segments 8 of the shaped-periodic rope with a length sufficient to reinforce the remaining part of the structure. In this regard, the measured segments 8 can be disconnected from the coils 7 and fixed in the bypass rollers 5 and the wiring 6 by means of braking devices of any known type.

Claims (3)

1. The method of reinforcing reinforced concrete structures, including the installation of non-stressed reinforcement in the direction of the longest length of the structure and in the transverse directions, cyclic erection of the formwork and filling the space inside the formwork with concrete, characterized in that reinforcing ropes of shaped-periodic profile are used as reinforcement in the direction of the greatest length of the structure which are fixed at the base of the structure and in each of the pouring cycles are fixed between the previously formed part of the structure and p distribution template, the distribution template is fed through the bypass rollers and the guide wiring from the coils located at the base of the structure, before each casting cycle, the distribution template is withdrawn from the previously formed part of the structure by the size of the formed section with the accompanying unwinding of the reinforcing ropes by twice as much, each the reinforcing element is integral along the entire length of the structure, and the mutually perpendicular reinforcement elements are connected by means of bushings . 2. The method according to claim 1, characterized in that after the formation of half the length of the structure, the reinforcing ropes are disconnected from the coils. 3. The method according to PP.1 and 2, characterized in that as reinforcing bars in other directions, reinforcing ropes of shaped-periodic profile are also used.

Images