RU40343U1 - WALL PROTECTION - Google Patents

Abstract

The invention relates to the construction and can be used in building envelopes of buildings and structures. The technical result of the invention is to reduce the complexity and reduce the time of erection of wall fencing through the use of finished flat reinforcing cages. To achieve this result, the proposed wall fence includes an outer and inner layer separated by a heater, between which diagonal reinforcement of metal rods is placed. The outer and inner layers of the fence consist of structural elements connected by a mortar with the formation of seams. Diagonal reinforcement is made in the form of a flat reinforcing cage of longitudinal and transverse rods fastened together. The longitudinal rods are placed in the horizontal seams of the outer and inner layers, and the transverse rods are located at an angle α = 10-170 ° relative to the longitudinal rods. In a reinforced reinforcing cage with more than 2 longitudinal rods, the transverse reinforcing cage rods have a Z-shaped flat shape with bending angles (90 ° + α), the ends of the rods being perpendicular to the longitudinal rods. In a wall enclosure in adjacent reinforcing cages that are adjacent in height, the angle of inclination of the transverse rods changes to an adjacent angle (180 ° -α). The proposed wall fencing allows you to reduce the complexity and reduce the time of its construction due to the use of prefabricated reinforcing cages. Due to the high operational qualities of such a reinforcing cage, the durability, operational reliability are increased and the thermal characteristics of the wall fence are preserved.

Description

The invention relates to the construction and can be used in building envelopes of buildings and structures.

Known wall fencing, including the outer and inner layers, between which is placed reinforcement, which is located orthogonally along, across and along the height of the wall fencing. The inter-armature space is filled with brickwork with the formation of vertical through channels filled with cement mortar (SU No. 684111, Е 04 В 2/34, 1979).

The disadvantage of this design is a small thermal efficiency with high material consumption of the fence. The orthogonal placement of the reinforcement creates short “cold bridges”, which reduces the heat-shielding qualities of the structure.

The closest technical solution is a wall fence, including the outer and inner layers, between which are inclined to the facade plane, walls in plan and height are placed diagonal fittings with insulation fixed to it. The diagonal reinforcement is made in the form of separate rods and connected to the outer and inner layers using anchor rods (RU No. 2137887, E 04 B 2/00, 09/20/1999).

The disadvantages of this design include the complexity of mounting reinforcement, which increases the time spent on the construction of wall fencing; the need for fragmentation of the insulation with its subsequent fastening to vertical and horizontal fittings, which reduces the heat-shielding properties of the insulation and also complicates the construction process.

The technical result of the invention is to reduce the complexity and reduce the time of erection of wall fencing through the use of finished flat reinforcing cages.

To achieve this result, the proposed wall fence includes an outer and inner layer separated by a heater, between which diagonal reinforcement of metal rods is placed. The outer and inner layers of the fence consist of structural elements connected by a mortar with the formation of seams. Diagonal reinforcement is made in the form of a flat reinforcing cage of longitudinal and transverse rods fastened together. The longitudinal rods are placed in horizontal seams of the outer and inner layers, and the transverse rods are located at an angle α = 10-170 ° relative to the longitudinal rods.

In a reinforced reinforcing cage with more than 2 longitudinal rods, the transverse reinforcing cage rods have a Z-shaped flat shape with bending angles (90 ° + α), the ends of the rods being perpendicular to the longitudinal rods.

In a wall enclosure in adjacent reinforcing cages that are adjacent in height, the angle of inclination of the transverse rods changes to an adjacent angle (180 ° -α).

The proposed design of the wall fencing is illustrated by the drawing, where Fig. 1 shows a fragment of a wall fencing, a horizontal section; figure 2 and 3 - the same options for the reinforcing cage.

The wall fence (figure 1) includes an outer 1 and an inner 2 layers, which consist of structural elements connected by a mortar with the formation of seams. Various masonry materials can be used as structural elements, for example, brick, stones, concrete or shell rock blocks, etc. The space between the outer and inner layers is filled with non-sagging insulation 3 made of basalt or mineral wool, polystyrene foam, or other materials. In the horizontal seams of the outer and inner layers on the construction

the solution has a flat reinforcing cage 4 of longitudinal 5 and transverse 6 metal rods fastened together. Between themselves, the rods of the frame are spot-welded or knitted with a knitting wire.

In a wall enclosure under the action of compressive forces, the reinforcing cage is clamped in the joints due to the forces of adhesion to the solution, friction, and works as a unit with the laying of the outer and inner layers.

When using in the reinforcing cage one pair of longitudinal rods (Fig. 1), the transverse rods are made straight. To strengthen the frame in the masonry of the outer and inner layer of the wall fencing, two or more longitudinal rods can be placed (FIGS. 2 and 3). In this case, the transverse rods 6 have a Z-shaped flat shape for better adhesion in places of attachment to the longitudinal rods 5. The ends of the transverse rods are bent so that when the middle part of the transverse rods are placed in the frame at an angle α = 10-170 ° relative to the longitudinal rods , their ends are perpendicular to the longitudinal rods.

There are various options for the location of the transverse rods in the frame. For example, the transverse rods in the reinforcing cage may be parallel to each other (figures 1 and 2). In this case, in order to impart sufficient longitudinal and transverse rigidity to the structure in the wall enclosure in adjacent reinforcing cages that are adjacent in height, the angle of inclination of the transverse bars changes to an adjacent angle (180 ° -α).

The transverse rods in the reinforcing cage can staggered ends in a checkerboard pattern at the points of attachment to the longitudinal rods, forming a zigzag structure (Fig. 3), which also provides longitudinal and transverse rigidity to the wall fence.

The thickness of the layers 1 and 2, insulation 3, the number of longitudinal rods 5 in the reinforcing cage, the distance between the transverse rods 6, as well as their diameter depend on the static function of the wall fence,

number of storeys of the building, climatic conditions of the construction site, materials used and other factors.

The manufacture of the reinforcing cage and the installation of wall fencing is carried out by known methods and means.

Compared with the known technical solution, the proposed wall fencing allows to reduce the complexity and reduce the time of its construction through the use of prefabricated reinforcing cages. Due to the high operational qualities of such a reinforcing cage, the durability, operational reliability are increased and the thermal characteristics of the wall fence are preserved.

Claims (3)

1. Wall fencing, including the outer and inner layers separated by insulation, between which reinforcement is made of metal rods, characterized in that the outer and inner layers of the fence consist of structural elements connected by a mortar with the formation of seams, and the reinforcement of metal rods is made in in the form of a flat reinforcing cage made of longitudinal rods and rods fastened together, located at an angle α = 10-170 ° relative to the longitudinal rods, while the longitudinal rods p zmescheny horizontal seams outer and inner layers. 2. The wall fence according to claim 1, characterized in that the transverse rods of the reinforcing cage have a Z-shaped flat shape with bending angles (90 ° + α), the ends of the rods being perpendicular to the longitudinal rods. 3. The wall fence according to claim 1, characterized in that in the adjacent reinforcing cages in height, the angle of inclination of the transverse rods is changed to an adjacent angle (180 ° -α).