RU2595026C1 - Method for wooden beam replacing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, particularly to a method for reinforcement of floors wooden beams and buildings coatings. Method for reinforcement of a wooden beam includes installation of temporary preventing support with stick-slip under stored part of the reinforced wooden beam, disassembly of an overlapping section in the reinforcement area, cutting and removal of defective section of the wooden beam, installation of a waterbar at the end of the wooden beam stored part, fastening the embedded part at the end of the beam stored part, installation of a formwork with a reinforcement frame, laying concrete mix in the formwork volume and complete filling a niche in the support wall with the concrete mix.

EFFECT: technical result is increased operational reliability of the beam.

1 cl, 2 dwg

Description

The invention relates to construction and can be used to strengthen wooden beams of floors and coatings, as well as reinforcing the rafters of the tented part of buildings and structures for industrial and civil purposes.

A known method of prosthetics of wooden beams of floors, including the installation under the saved part of the reinforced beam of a temporary safety post with a pivot, disassembling a section of the floor in the area of reinforcement, for example, floors, rolls from boards, etc., cutting and removing a defective section of a wooden beam, the installation of a metal rod prosthesis, for example, the design of SD Daydbekov, the restoration of the integrity of the disassembled section of the floor and the dismantling of the temporary safety post (Daydbekov S.D. vyannyh overlap -. M .: Publisher of the RSFSR Academy of Public Utilities, 1953, page 10, Figure 1)...

In this case, a pre-fabricated bar prosthesis consisting of round steel rods, sheet steel and fragments of channels welded into a triangular spatial truss is placed upward along the wall in a vertical position, and then deployed in a horizontal position and mounted on a supporting platform of a niche in the wall and fixed on conserved parts of a wooden beam.

The disadvantage of this method is the low operational reliability, which is associated with inaccuracies in the fitting of the contact surfaces of the bar prosthesis to the wood of the beam, as well as with the likelihood of corrosion damage to the steel elements of the bar prosthesis during prolonged operation in a closed overlap volume when placing the prosthesis between the overlap layers. Moreover, in fire conditions, the fire resistance of the bar prosthesis is insufficient and is not more than 15 minutes.

The closest technical solution to the claimed one is a method of prosthetics of wooden floor beams, including installing a temporary safety post with a link under the saved part of the reinforced beam, disassembling the floor section in the area of reinforcement, for example, floors, rolling from boards, etc., cutting and removal of a defective area of a wooden beam, installation of a metal false prosthesis, for example, the design of Anufriev N.A., restoration of the integrity of the disassembled section of the floor and dismantling of temporary it stands (Daydbekov SD Receptions for the restoration of wooden floors. - M .: Publishing House of the Academy of Public Utilities of the RSFSR, 1953, p. 56, Fig. 34).

At the same time, an overhead prosthesis, consisting of paired side overlays of channels, is inserted into the pockets of bending clamps made of strip steel, covering the beam from above and below.

The disadvantage of this method is the low operational reliability, which is associated with inaccuracies in the fitting of the contact surfaces of the channel plates of the prosthesis with the inner planes of the pockets of the bending clamps, as well as with the likelihood of corrosion damage to the steel elements of the prosthesis during prolonged use in a closed overlap volume when placing the prosthesis between the overlap layers. Moreover, in a fire, the fire resistance of a metal false prosthesis is insufficient and is not more than 15 minutes.

The objective of the invention is to increase the operational reliability of a reinforced wooden beam.

The technical result is achieved by the fact that the method of prosthetics of a wooden beam, including the installation of a temporary safety support under the preserved part of the beam, disassembling the overlap area in the reinforcement area, cutting and removing the defective beam section, installing the prosthesis as follows: install a waterproofing gasket on the end the preserved part of the wooden beam, fix the embedded part to the end of the preserved part of the wooden beam, place the formwork into which the reinforcing car is installed cas and perform concreting, after which they restore the integrity of the disassembled section of the floor and dismantle the temporary safety support.

The method of prosthetics of a wooden beam may additionally include concreting the part of the prosthesis adjacent to the supporting wall, simultaneously with concreting the niche in the supporting wall with its full filling with concrete mixture.

The invention is illustrated by drawings:

- FIG. 1 is a general view of a portion of a beam with a prosthesis;

- FIG. 2 - cross section of the prosthesis (section 1-1).

A method of prosthetics of a wooden beam includes the installation of a temporary safety support 1 with a hook 2 under the stored part of the reinforced wooden beam 3, disassembling the overlap area in the reinforcement area, for example, floors, rolling from boards, etc., cutting and removing the defective area of the wooden beam 3, installation on the end of the stored part of the wooden beam 3 of the waterproofing strip 4, fixing on the end of the saved part of the wooden beam 3 of the embedded part 5, made, for example, in the form of a channel and equipped with anchors 6 with one steel on the other hand, with capercaillies or self-tapping screws 7, on the other hand, capable of absorbing tensile forces, placing the formwork 8 into which the reinforcing cage 9 is installed, laying the concrete mixture 10 into the volume of the formwork 8 and completely filling the niche 11 in the wall 12 with the concrete mixture, holding after concreting to the concrete set of the prosthesis 13 of the necessary strength, the restoration of the integrity of the disassembled overlap section and the dismantling of the temporary safety support 1.

A waterproofing pad 4, placed between the concrete mixture 10 and the wood of the preserved part of the beam 3, protects the wood from direct moisture during concreting of the prosthesis 13.

Complete filling with concrete mixture 10 of the niche 11 in the wall 12 after hardening the concrete of the prosthesis 13 leads to a change in the design scheme of a reinforced wooden beam compared to its initial design scheme in the form of a beam pivotally supported on supports. When the concrete mixture 10 is completely filled in the niche 11 after hardening, the beam support on the wall 12 is transformed from the point of view of static work, turning into partially jammed, as a result of which the span bending moments occurring in the beam before prosthetics are significantly reduced.

When 3 operating loads are applied to the wooden beam, the bending moments that occur at the junction of the reinforced concrete prosthesis 13 with the end face of the preserved part of the wooden beam 3 are balanced by a pair of internal forces in the form of tensile forces in the cap or 7 screws, on the one hand, and the resultant compressive stresses in the upper the joint zone, on the other hand, spaced from each other at an appropriate distance. Tensile forces arising in capercaillie or self-tapping screws 7 are transmitted to the reinforced concrete prosthesis 13 through the embedded part 5, and then through the anchors 6 included in the reinforced concrete prosthesis 13.

The transverse forces arising at the junction of the reinforced concrete prosthesis 13 with the end face of the preserved part of the wooden beam 3 are perceived: on the one hand, due to the mechanical engagement of the embedded part 5 with the concrete of the prosthesis 13, and, on the other hand, due to the attachment of the embedded part 5 to the wood wooden beams 3 through capercaillie or self-tapping screws 7.

The proposed method of prosthetics of a wooden beam can improve the operational reliability of a reinforced wooden beam.

Claims (2)

1. The method of prosthetics of a wooden beam, including installing a temporary safety support under the saved part of the beam, disassembling the overlap area in the reinforcement work area, cutting and removing the defective beam section, installing the prosthesis, restoring the integrity of the disassembled overlap section and dismantling the temporary safety support, characterized in that the installation of the prosthesis is as follows: install a waterproofing gasket on the end face of the preserved part of the wooden beam, fix the embedded part to the end face with Wounding portion of a wooden beam, the formwork is placed, which is mounted in the reinforcing frame, and performing concreting. 2. The method of prosthetics of a wooden beam according to claim 1, characterized in that the concreting of the part of the prosthesis adjacent to the supporting wall is performed simultaneously with concreting the niche in the supporting wall with its full filling with concrete mixture.

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