RU2120523C1 - Exterior guard of building - Google Patents

Abstract

FIELD: civil engineering, in particular, external guards of buildings; may be used in construction of residential and public buildings. SUBSTANCE: exterior guard has exterior brick wall carrying loggias and provided with pilasters and made with periodically located in height from internal side of wall, projections of header bricks extending up to stop of middle wall with end faces coated with antifriction material; interior wall connected with exterior wall by braces. Interior wall has rows extended to stop of middle wall made of heat-efficient material and is located in air gap between interior and exterior walls. Braces are made in the form of bars with cross-section multiple to brick sizes of structural heat-insulating material and located at the level of structures between ceilings and floors. Brickwork of middle wall in places of passage of braces has holes filled round braces with heat-insulating material. EFFECT: improved heat-insulating properties of guard and excluded reciprocal influence of walls with different deformation characteristics. 2 cl, 3 dwg

Description

 The invention relates to the construction, namely to the external enclosures of buildings, and can be used in the construction of residential and public buildings.

 There are known walls made of materials of different heat-shielding and strength qualities with rigid dressing of rows or with cushioning rows (S. V. Polyakov, B. N. Falevich. Design of stone and large-panel structures. - M.: Higher School, 1966).

 The disadvantage of this masonry is the high complexity of the construction of the described wall, associated with the need to strictly observe the heights of the masonry rows for dressing with different sizes of stones of the outer and inner layers, insufficient dressing strength when laying walls of large-story buildings. In addition, the various deformability of masonry from light low-strength stones, for example, from cellular concrete, and brick masonry limits the height of buildings being erected by 3-4 floors, which is associated with the possibility of the development of contact layers of large shear stresses.

 Known external fencing of the building, containing the outer and inner walls and located with a ventilated gap between them, a wall of heat-efficient material. Flexible connections are regularly established throughout the contact area of the layers (T. G. Maklakova et al. Designs of civil buildings.- M .: Stroyizdat, 1986, p. 80, 112).

 The described fence coincides with the claimed for most essential features and we have taken as a prototype.

A disadvantage of the known external fencing is the poor protection of the flexible rod anchors against corrosion. The various temperature conditions in which the walls work (the outer wall works in conditions of large temperature differences from winter to summer (70-80 ^o C), while the masonry of the middle and inner walls are in relatively stable conditions of average temperature), lead to various deformation of the walls of the fence. With a large number of storeys of the buildings being erected, the difference in deformations from precipitation, shrinkage and temperature can reach 25-30 mm, which leads to loosening of the tie-in zone in the weak masonry of the middle wall and breakdown of bonds.

 The objective of the invention is to improve the heat-shielding qualities of the fence and the exclusion of mutual influence of the walls with various deformation characteristics.

 To solve the problem in the outer enclosure of the building, containing the outer brick wall bearing the loggias, the inner brick bearing wall, interconnected, and located between them with an air gap, a self-supporting wall of heat-efficient material, according to the invention, the outer wall is equipped with pilasters and made with periodically arranged in height from the inner side of the wall by protrusions of bonded bricks, fully released into the middle wall with ends coated with antifriction material, inside the back wall has rows extended all the way to the middle wall, the rigid connections are made in the form of bars with a cross-sectional multiple of the size of the brick made of structural and heat-insulating material, and are located at the level of floor floors, and the masonry of the middle wall at the points of the passage of rigid connections has holes filled around connections with insulating material; extended rows of the inner wall are located through 4-5 rows of masonry.

 The protrusions of the bricks from the inner wall and the rows extended from the inner wall, abutting against the middle wall, prevent bending and deviation of the free-standing middle wall.

 The rows extended from the inner wall through 4-5 rows of masonry limit the convection of air in the air gap between the walls to a height of 3-4 rows of masonry, which increases the heat-protective qualities of the fence.

 Rigid connections located at the level of interfloor overlaps exclude horizontal mutual displacements of the inner and outer walls, providing overall stability of the fence.

 The holes around the rigid ties left during the laying of the middle wall provide free development of mutual deformations of the (vertical) walls.

 The analysis of the prior art did not allow to identify an analogue characterized by features identical to all the essential features of the proposed solution, that is, it meets the requirement of an inventive step.

 The essence of the alleged invention is illustrated in the drawing, where in FIG. 1 shows an external fence - a fragment of a horizontal section along window openings; in FIG. 2 - vertical section through a blind area; in FIG. 3 - fragments of vertical sections along the window opening and the blind section.

 The outer fence of the building consists of an external brick wall 1 with pilasters 2, an internal load-bearing wall 3 of brick, an average self-supporting wall 4 of piece heat-efficient material. The outer wall 1 of the enclosure on the inside has periodically protruding projections 9 of bonded bricks released at the locations of the pilasters all the way into the middle wall 4. After 4-5 rows of masonry, the spoon rows 10 of the inner wall 3 are extended inward to the middle wall 4 to create stops that prevent deformation of the middle wall 4 and limit convection of air in the air gap 5 between the walls in height. The outer wall 1 and the inner wall 3 of the fence at the level of the flooring 6 are connected by rigid ties 7 in the form of bars with a cross section that is a multiple of the dimensions of a brick made of structural and heat-insulating material. The middle self-supporting wall 4 around the rigid ties 7 has openings 8 filled with heat-insulating material, for example mineral wool.

 The inventive outer fence is constructed and operates as follows.

 Fencing is carried out ahead of the build-up of layers from the outer edge to the inner by the size of the steps along the height of the protrusions 9 and 10 of the masonry of the outer 1 and inner 3 walls. At the level of interfloor ceilings 6, the masonry of the walls is leveled to install squared ties 7 between the outer 1 and inner 3 walls. Then the cycle of building the floor is repeated.

In the fence of the building, each of the walls perceives the loads transferred to it:
- external 1 - vertical loads from the own mass and the loggia ceilings and horizontal wind with local bending at the height of the floor;
- average 4 - only vertical loads from own weight and filling of window openings;
- internal 3 - vertical loads from its own mass transmitted by floor slabs and coatings, as well as from wind or other random horizontal loads, causing a general bending of the building.

In this case, deformations of each wall (1, 2, 4) can develop independently. In the places of contact of the walls along the ledges of the masonry coated with antifriction compounds (for example, coating with cold bituminous mastic), slip occurs under different deformations and no tangential stresses arise. At the same time, the free-standing middle wall 4 is made of a material with a sufficiently large deformability and low strength (for example, masonry made of cellular concrete blocks with a bulk mass of 400 kg / m ³ will have a deformation modulus and strength is approximately an order of magnitude lower than for brick masonry marks 100), being clamped by two brick walls 1, 3, the stability of which is ensured by constructive ties with overlapping 6, dressing with masonry of the transverse walls of the building and external pilasters 2 and pylons of loggias, cannot lose stability.

 Thermotechnical characteristics of the fence are provided mainly by the middle 4 and inner 3 walls. The outer wall 1 of brick is protective and decorative. Between it and the middle wall 4 a height-ventilated air gap is made, which ensures removal of moisture entering the wall. Along the perimeter of window and door openings, this gap is overlapped by a soft sealing material (gernit, tows of antiseptic tow). The point stops from the outer wall 1 in the places where the pilasters 2 and pylons under the loggia are installed in it, are made of bonded bricks released over the edge of the wall, cover no more than 10% of the air gap and do not interfere with ventilation.

 Between the inner 3 and middle 4 walls of the fence, the air gap is made minimal - 10 - 15 mm. With linear protrusions, this gap periodically overlaps completely through 4 to 5 rows of masonry of the inner wall 3, which excludes the development of air convection in it. Thus, this gap increases the overall resistance to heat transfer of the fence. For some linear protrusions from the inner wall 3 (for example, once per floor) in the gap between the inner 3 and middle 4 walls, an additional sealant can be made (hernite, macroflex).

Claims (2)

 1. The outer fence of the building, containing the outer brick wall bearing the loggias, the inner brick bearing wall, interconnected, and located between them with an air gap, the middle self-supporting wall of heat-efficient material, characterized in that the outer wall is equipped with pilasters and is made periodically protrusions of bonded bricks that are arranged in height on the inner side of the wall and are released all the way into the middle wall, with ends coated with antifriction material, the inner wall has rows, the rigid ties extended all the way to the middle wall are made in the form of bars with a cross-sectional multiple of the bricks made of structural and heat-insulating material, and are located at the level of interfloor ceilings, and the masonry of the middle wall at the places where the rigid bonds pass through has holes filled with heat-insulating material around the bonds.  2. The fence according to claim 1, characterized in that the extended rows of the inner wall are located through 4-5 rows of masonry.

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