RU2513953C1 - Method to repair building facade and repaired facade of building - Google Patents

Abstract

FIELD: construction.SUBSTANCE: in the method to repair a building facade, including dismantling, of at least a part of masonry of oil facing bricks and development of new masonry of facing bricks with fixation on the bearing wall of the building, according to the invention, development of new masonry and its fixation is done by fixing anchors in the bearing wall of the building, onto which horizontal rows of reinforcement are laid, on each of which, using mortar, they lay several rows of bricks with a gap relative to the bearing wall of the building, at the same time the first and last rows of the new masonry of facing bricks are arranged with horizontal ventilation gaps in respect to the old masonry. Besides, as the masonry is fixed onto the bearing wall of the building, in the specified gap they lay mortar in the form of vertical strips that connect areas of fixation of anchors, for additional fixation of bricks and elimination of anchor corrosion.EFFECT: increased service life of a repaired facade of a building without change in its appearance, elimination of moisture condensation on a facing brick and in a facing brick due to formation of a ventilation gap in the facade, due to which a directed air flow from bottom up, which carries away warm moist air from a wall, preventing moisture condensation, increased service life of a facade happens due to suggested reliable fixation of facing brick masonry on a bearing wall of a building.8 cl

Description

The group of inventions relates to the field of construction, namely, to the restoration and repair of brick building facades.

Known methods for constructing ventilated facades of buildings (see, for example, patent for utility model RU 97146, published August 27, 2010, patent for invention RU 2183711, published June 20, 2002). Such methods are used in the construction of new buildings or in the construction of new facades on old buildings, which is associated with an increase in wall thickness and a change in the appearance of the facade of the building.

The closest analogue of the proposed method and device is a method of repairing a brick facade of a building and a facade repaired in this way, known from information from the Internet (Art. "Repair of a brick facade", http://alpvershina.ru/fasadnye-raboty/remont-kirpichnogo- fasada /, printed on 10/23/2012).

In the known method, the masonry of the old facing brick is dismantled and the new facing brick is laid with the masonry fixed to the supporting wall of the building with a cement mortar.

The disadvantage of this solution is the flooding of the facing brick and its further thawing and weathering. The reason for accelerated watering is a decrease in the equilibrium partial pressure of water vapor on the surface of the masonry and, as a result, when its temperature decreases, the dew point moves to the facing masonry zone under certain conditions, which, in turn, is caused by a change in the thermal characteristics of the supporting external wall.

The objective of the proposed group of inventions is to increase the service life of the renovated facade of the building without changing its appearance.

The technical result of the invention, providing a solution to the problem, is the elimination of moisture condensation on and in the facing brick.

The technical result is achieved by the fact that in the method of repairing the facade of the building, including the dismantling of at least part of the masonry of the old facing brick and the creation of a new masonry of the facing brick with its fixing on the supporting wall of the building, according to the invention, the creation of a new masonry and its fixing is carried out by fixing in to the bearing wall of the building of anchors, on which horizontal rows of reinforcement are laid, on each of which several rows of bricks are laid on the mortar with a gap with respect to the bearing wall of the building, and not The first and last rows of the new masonry of facing brick are laid with horizontal ventilation gaps in relation to the rows of the old masonry.

In addition, when fixing the masonry, the solution is applied in the form of vertical strips connecting the anchorage of the anchors to the supporting wall of the building in the specified gap for additional fixing of bricks.

In addition, the bricks of the new masonry are laid to each other with the side of the largest area.

In addition, a cornice is installed above the upper row of bricks of the new masonry.

The technical result is also achieved by the repaired building facade containing the old masonry of the facing brick and the new masonry of the facing brick and means for fastening the new masonry to the load-bearing wall of the building, in which according to the invention a new masonry of the facing brick is installed with a gap to the load-bearing wall of the building, while the said means for fastenings are made in the form of anchors fixed in the bearing wall of the building, on which are laid horizontal rows of reinforcement, monolithic in the solution, and between the rows of reinforcement solution were shared by one or more rows of bricks, wherein the first and last rows of the new masonry bricks are arranged with horizontal ventilation gap relative to the old masonry.

In addition, the new masonry is additionally fixed to the supporting wall of the building with a mortar laid in the aforementioned gap in the form of vertical stripes connecting the anchorage points.

In addition, the facing bricks of the old masonry are located in such a way that their side with the largest area is the front side, and the bricks of the new masonry are laid with the sides of the largest area to each other so that the total height of several bricks laid on each other between horizontal rows of reinforcement is facing brick height of old masonry.

In addition, a cornice is installed above the upper row of bricks of the new masonry.

The essence of the group of inventions is illustrated using graphic materials.

In Fig.1 shows a fragment of the repaired part of the facade (front view), Fig.2 shows a section aa of Fig.1.

The renovated building facade contains a new masonry 1 of facing bricks mounted on the supporting wall 2 of the building with a gap of 3, approximately 1.5-3.0 cm for air passage. The masonry 1 is fixed by means of anchors 4 of reinforcing wire AIII with a diameter of about 14 mm, fixed in the bearing wall 2 of the building, on which, for example, two horizontal rows of reinforcement 5 of reinforcing wire AI with a diameter of 8 mm are laid, monolithic in mortar 6 between rows of bricks. Reinforcement can also be used as reinforcement.

On each horizontal row of reinforcement 5, one row of bricks 16 can be laid, or more, both with the largest side of the brick 16 outward and side, depending on the desired appearance of the masonry. In the case shown in the drawings, on each horizontal row of reinforcement three rows of bricks 16 are laid, which in their height correspond to the height of the facing brick 17 of the old masonry. Thus, visually, three new bricks correspond to one old. If the old bricks 17 are stacked in a checkerboard pattern, then the columns of the three new bricks 16 are also staggered.

The first 7 and last 8 rows of the new masonry 1 of the facing brick are installed with horizontal ventilation gaps 9 and 10, for example, 3-5 cm in relation to rows 11 and 12 of the old masonry.

The last 8 (upper) row of masonry 1 is plastered and closed with a stainless steel cornice 13 mounted on a supporting wall 2 with dowels 14.

The masonry 1 is additionally fixed to the supporting wall 2 of the building with a solution laid in the gap 3 by vertical strips 15 connecting the anchorage points of the anchors 4 (Fig. 1).

Repair of the facade of the building is as follows.

The old masonry is removed in the places of its greatest destruction. The new masonry 1 is arranged while preserving the architectural and color scheme of the building facade with a gap of 3 to the bearing wall 2 of the building. In this case, the first 7 and last 8 rows of masonry facing brick are installed with horizontal ventilation gaps 9 and 10 to rows 11 and 12 of the old masonry.

To fix the masonry 1 on the bearing wall 2 of the building, anchors 4 are used with a length of about 340 mm, which are fixed at 200 mm in the wall 2 with a step of 300 mm horizontally. The vertical step is determined by the facade architecture. Two horizontal rows of reinforcement 5 are laid on anchors 4, on which bricks 16 are laid in mortar 16 in several rows (for example, in three rows) on a mortar. The masonry 1 is additionally fixed on the wall 2 of the building with a solution laid in the gap 3 with vertical strips 15 of about 50 mm along the anchors 4. This provides additional protection for the anchors 4 from corrosion.

The last 8 (upper) row of masonry 1 is plastered and covered with a stainless steel cornice 13. Thus, in the gap between the new masonry 1 and the supporting wall 2, a space is created with a directed air flow from the bottom up. Thanks to this flow, warm moist air is removed from the wall. Moisture condensation does not occur, and the brick does not collapse.

In addition, the increase in the service life of the facade is due to the proposed reliable fixing of masonry cladding brick on the supporting wall of the building.

Claims (8)

1. A method of repairing the facade of a building, including the dismantling of at least part of the masonry of the old facing brick and the creation of a new masonry of facing brick with its fastening on the load-bearing wall of the building, characterized in that the creation of the new masonry and its fastening is carried out by fixing in the load-bearing wall of the building anchors on which horizontal rows of reinforcement are laid, on each of which on the mortar one or more rows of bricks are laid with a gap with respect to the bearing wall of the building, and the first and last rows of the new masonry bricks are laid with horizontal ventilation gaps in relation to the rows of old masonry. 2. The method according to claim 1, characterized in that when fixing the masonry on the load-bearing wall of the building in the specified gap, a solution is applied in the form of vertical stripes connecting the anchoring points for additional fixing of bricks. 3. The method according to claim 1, characterized in that the bricks of the new masonry are laid to each other with the side of the largest area. 4. The method according to claim 1, characterized in that a cornice is installed over the upper row of bricks of the new masonry. 5. The repaired building facade, containing the old masonry of the facing brick and the new masonry of the facing brick and means for attaching the new masonry to the load-bearing wall of the building, characterized in that the new masonry of the facing brick is installed with a gap to the load-bearing wall of the building, while the said fixing means in the form of anchors fixed in the bearing wall of the building, on which are laid horizontal rows of reinforcement, monolithic in the solution, between the rows of reinforcement laid on the solution in one or more rows of brick And the first and last rows of the new laying of bricks arranged with horizontal ventilation gap between the old masonry. 6. The facade of the building according to claim 5, characterized in that the masonry is additionally fixed to the supporting wall of the building with a solution laid in the said gap in the form of vertical stripes connecting the anchoring points. 7. The facade of the building according to claim 5, characterized in that the facing bricks of the old masonry are located so that their side of the largest area is the front side, and the bricks of the new masonry are laid with the sides of the largest area to each other so that the total height of several bricks stacked on top of each other between horizontal rows of reinforcement equal to the height of the facing brick of the old masonry. 8. The facade of the building according to claim 5, characterized in that a cornice is installed above the upper row of bricks of the new masonry.

Images