RU2148135C1 - Method for erection of faced sectional wall - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: according to method, sectional wall is assembled and its external surface is faced. Used for facing is hollow ceramic stone. Stones are made with slots in their one side surface in the form of dovetail. Connection of stone with external surface of wall is effected by means of steel links which at their one end have loop in the form of slot in stone, and at other end they have straight section bent at right angle with respect to axis of link. Made in parallel surface are slots of depth equal to 1/20-1/30 of thickness of ceramic stone. This is for imitation of brickwork. Aforesaid method allows for improving warmth-conserving characteristics of faced sectional wall. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to the construction, namely the construction of prefabricated cladding walls.

 A known method of constructing a wall of blocks laid flat and connected by a layer of concrete (WO 90/10128, E 04 C 2/26, 1990).

 At the same time, longitudinal grooves of a trapezoidal cross section are made on one or both sides of the blocks, broadening inside the block (dovetail type). In each such groove, a support bar is inserted, which can be molded inside the groove. The supporting beam can be made of aluminum, steel, wood, etc.

 During the construction of the wall, the blocks are laid flat, connected and reinforced.

 A wall obtained in a known manner requires facing, and the presence of connecting elements in the wall structure increases the complexity of the process of its construction.

 A known method of construction of panel and brick walls, including the creation of a wall of blocks or bricks and the subsequent lining of its outer surface. (Recommendations on the methodology for calculating, designing and using panel and brick walls with various types of facings. M., Stroyizdat, 1983, pp. 4-5).

 In this case, cladding is carried out with facade tiles with a glazed and unglazed surface (tile size 48x48x4 mm or 150x75x7 mm), glass cladding tiles (tile size 22.3x22.3 mm), concrete flat facade panels.

 Known facing tiles have on the back side corrugations, recesses or ribs to increase the strength of their connection. And the connection of the facing tiles to the wall surface is carried out using mortar or concrete.

 In the known method, wall cladding provides an aesthetic effect to the building without significantly increasing the heat-shielding properties of the wall fencing.

 The closest analogue of the present invention is a method of erecting a prefabricated wall, comprising creating a prefabricated wall and cladding its outer surface (SU, 1638280, E 04 1/76, 1991).

 In a known manner, a layered monolithic wall is erected with plate insulation. Plate insulation has grooves on both surfaces. In this case, the grooves are cut in the form of a dovetail on one side and, on the other hand, in the form of a triangle, on the top of the insulation, the top of which is formed by an anchoring head.

 The method is as follows: the plate insulation is attached to the supporting frame, then the installation is in the design position, the formwork panels are installed on the side of the inner supporting layer of the wall, the inner supporting layer is poured, the main boards and the supporting frame are stripped and then facing the outer wall surface by applying a protective and decorative outer layer by the "spray" method.

 A wall made in this way has sufficiently high heat-shielding properties, in addition, a plate insulation serves as both a heat-shielding layer and an external enclosing formwork, which reduces the cost of removable formwork.

 However, the construction of walls with effective insulation is still laborious, and in the confined space of laminated walls, aging and destruction of insulation from mineral wool and polystyrene plates occurs, as a result, the effective insulation ceases to fulfill its functions and the heat-shielding properties of the wall are sharply reduced.

 A new technical result from the use of the present invention is the creation of a durable high-performance wall fencing with high heat-shielding properties.

 This result is achieved in that in the method of erecting a prefabricated wall, including the creation of a prefabricated wall and lining its outer surface, the lining is carried out by a hollow ceramic stone made with grooves on one side face in the form of a dovetail, by connecting the stone to the outer surface of the wall with steel ties made on the one hand with a loop in the shape of a groove, and on the other hand bent at a right angle to the axis of the straight section of communication, and on a parallel face grooves are made with a depth equal to 1/20 -1/30 thickness of ceramic stone, and imitate brickwork.

 At the same time, the wall is erected from prefabricated porous concrete blocks measuring 375x600x250 mm, and the lining is carried out with ceramic stones mainly with a size of 120x250x225 and made with grooves on the inner side face in the form of a dovetail, and furrows with a width of 10 mm and a depth of 5 mm imitating the figure are made on the opposite side traditional brickwork of single brick, and the voids of the stone - horizontally located holes.

Fastening of facing ceramic stones to porous concrete blocks is carried out using connecting elements - steel ties, which are reinforcing rods with a diameter of 3.0 mm with a shorty welded on one side and a 90 ^° bent end on the other.

 The fastening is carried out as follows: a shorting of the connecting element is inserted into the groove of the ceramic stone, and the bent end is driven into the end face of the concrete block.

The number of connecting elements per 1 m ^{2 of the} wall is determined by calculation.

 The gap between the porous concrete blocks and ceramic stones with a width of 25-50 mm can be left empty or filled with cement-sand mortar on porous aggregates.

 The choice of a solution to fill the gap depends on the thermo-humid regime of the building.

 In case of empty gaps, the connecting elements must be coated with anti-corrosion protection.

 The laying of porous concrete blocks and ceramic stones must be carried out on an adhesive solution with a thickness of 2-4 mm.

 The solution of the wall fencing implemented by the proposed method is shown in FIG. 1, and the design of the ceramic stone used for cladding in this method is shown in FIG. 2.

The wall erected by the proposed method has high thermal insulation properties (the <joints, the <heat loss, the horizontal position of the voids in the stone allows laying ceramic stones and porous concrete blocks on a cement-adhesive mortar of minimum thickness, which also helps to increase the thermal insulation properties of the wall) ,
- cost-effectiveness (the cost of finishing porous concrete walls with ceramic stones is 4 times less than the cost of finishing them with plaster, followed by painting with waterproof paint of the German company "Remmers",
-durability.

Claims (1)

 A method of erecting a lined prefabricated wall, including creating a prefabricated wall and lining its outer surface, characterized in that the lining is carried out by a hollow ceramic stone made with grooves on one side face in the form of a dovetail, by connecting the stone to the outer surface of the wall with steel ties made with one side with a loop in the shape of a groove, and on the other hand, bent at a right angle to the axis of the straight section of the connection, and on a parallel face grooves are made with a depth equal to 1/20 - 1/30 of the thickness of the ceramic Skogen stone, and simulate brickwork.

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