RU97147U1 - MULTI-LAYERED EXTERIOR WALL - Google Patents

Abstract

 1. A multilayer outer wall with cladding, containing a rigid frame made of vertical columns and horizontal profiles, the inner and outer walls of fixed formwork, the space between which is filled with monolithic light concrete, facade cladding elements, fasteners, characterized in that the inner sheet of fixed formwork attached to the supporting elements of the building, for example, by means of guides and rack profiles, the racks of said rigid frame by means of external elements, for example, scarves, you carried outside the columns of the building at a distance of 0.05 to 0.3 m, horizontal profiles are fixed on the posts along the length of the wall with a step approximately equal to the width of the facing elements, external sheets of fixed formwork are fixed on horizontal profiles, and in the places where the formwork is fixed the clammers of the facade cladding elements, which simultaneously serve as the formwork attachment plates, while the said clammer is adjacent to the outer formwork sheet and by means of fasteners passing through the formwork sheet, rikreplen to the horizontal profile, so that the covering elements form a front outer sheet casing ventilation gap not less than the thickness of the capping. ! 2. The wall according to claim 1, characterized in that the said vertical frame pillars are made of a steel box or of a bent profile of rectangular cross section. ! 3. The wall according to claim 1, characterized in that the said horizontal profiles of the frame are made in the form of a U-shaped profile with a flanging of the walls by 90 °. ! 4. The wall according to claim 1, characterized in that the horizontal profiles are fastened with vertical

Description

The utility model relates to civil and industrial construction and can be used in the construction of multi-story buildings up to 150 meters high with a long service life.

Known multilayer monolithic wall containing sheets of fixed formwork, between which a layer of polystyrene concrete is placed (Pat. RF No. 16003 U1, 2000).

Such a wall has low structural strength and is unsuitable for the construction of multi-storey buildings.

Known multilayer monolithic wall containing the outer and inner walls of fixed formwork, between which is placed a layer of aggregate made of polystyrene concrete. In the filler layer with a gap relative to the outer wall of the fixed formwork with a size of 0.2-0.5 of the thickness of the filler layer, a frame of metal profiles is installed, which is attached to the inner wall of the fixed formwork and connected to the outer wall using flexible connections (Multilayer monolithic wall. Pat. RF №25197 U1, 2002, Pat. RF №2215097 C1, publ. 2003).

The design has low strength due to flexible connections and is unsuitable for the construction of multi-storey buildings.

Known multi-layer vertical building structure (outer wall), which includes a rigid frame, fixed formwork, consisting of a facing layer for the exterior of the facade, the inner facing layer and placed between these layers of insulating lightweight aggregate. Fixed formwork serves at the same time for decorative wall decoration. The outer facing layer is made of small-sized panels treated with a water-repellent composition. The frame is made of sheet steel profiles fastened together and is used for temporary fastening of fixed formwork, after the aggregate hardens, the structure becomes monolithic (Multilayer vertical building construction. Patent RU No. 58566 U1, publ. 2006).

The well-known building structure is short-lived, it can be used in the construction of offices, shopping centers, small industrial facilities, but is unsuitable for the construction of multi-storey residential buildings with a permanent residence of people.

Known wall, the construction of which is described in the method of construction of self-supporting external walls of frame-monolithic houses (Patent RU No. 2363820 C1, publ. 2009). The wall contains a rigid frame, fixed formwork from external and internal panels with light concrete laid in the interdeck space, decorative lining. A rigid panel frame is formed directly on the construction site or in a separate workshop, on the outside of which an external insulation layer and a decorative facade coating are made. After that, the unit is lifted to the required floor, fixed in the design position, the internal fixed formwork made of thin sheets is fixed to the frame, and then the space between the fixed formwork is poured with light concrete.

The described known wall has the following disadvantages. The main insulation (lightweight concrete) does not insulate the supporting columns of the building through which large heat losses occur. The design of the known wall does not allow to firmly fix the long-term facing elements such as porcelain stoneware, since the decorative layer is attached to the insulation layer. For the installation of panels, it is necessary to have a large auxiliary area at the construction site, which increases the cost of construction. The advantage of the wall is the ability to install panels along the entire height of the building with subsequent internal work, including pouring concrete, not depending on weather conditions.

Known building building containing a rigid frame made of metal or wood, fixed formwork, insulation. Fixed formwork includes porcelain stoneware facade tiles that are attached to the outside of the frame, as well as internal formwork panels that are attached to the same supporting frame, but from the inside of the building. When installing a fixed formwork, the first row of internal plates is first attached (to the height of one row), then the insulation is filled (polystyrene concrete grade D350-500), then the next row of plates is installed, etc. After filling the space between the plates with polystyrene concrete, the frame is located inside the fixed formwork along the entire height of the walls of the building (Building building. Pat. RU No. 85928 U1, publ. 2009). This technical solution, as the most similar in purpose and combination of essential features, is taken as a prototype.

The known design does not solve the problem of reducing the thickness of the multilayer outer wall while maintaining high thermal characteristics of the building. The disadvantage is both a restriction on the maximum building height and thermal protection required by modern SNiP. The metal frame, in contact with both walls of the formwork, contributes to heat loss. The wooden frame is also short-lived, has low strength and can not be used in high-rise buildings.

The technical task is to create a pre-fabricated wall of a multi-story building, which allows you to build low-cost buildings with high thermal characteristics that comply with SNiP.

The solution to this problem is ensured by the fact that in a wall containing a rigid frame for fixed formwork made of vertical columns and horizontal profiles, internal and external sheets of fixed formwork, lightweight concrete and facade cladding elements, according to a utility model, the internal sheet of fixed formwork is attached to the supporting building elements, for example, by means of guides and rack profiles, vertical racks of the said frame by remote elements, for example, scarves, are carried outside the bearing their columns of the building at a distance of 0.05 to 0.3 m, horizontal profiles are fixed on racks along the entire length of the wall, on which external sheets of fixed formwork are fixed, and in the places of fastening of the formwork there are clamps of facade cladding elements, which simultaneously serve as overlays of fastening of the formwork, wherein said clammer is adjacent to the outer formwork sheet and is attached to the horizontal profile by means of fasteners passing through the formwork sheet so that the facade cladding elements form with the outer formwork sheet ventilation gap

Signs common with the prototype: fixed formwork, metal frame, insulation, facade tiles attached to the frame, the frame is located inside the fixed formwork, the frame is poured with lightweight concrete along the entire height of the wall, polystyrene concrete is used as lightweight concrete, filling is carried out in a circular layer-by-layer.

Signs that distinguish the utility model from the prototype: the inner formwork plates are mounted not on the frame, but on the supporting elements of the building, the frame is moved outside the building using external elements, the cladding elements are attached not to the formwork, but to a rigid frame, between the formwork and the lining the ventilation gap. These signs are sufficient to obtain the stated result.

Thus, the novelty of the utility model is that the inner sheet of fixed formwork does not interact with the heat-conducting frame, since it is attached directly to the supporting elements of the building. The frame elements used to secure the formwork are moved outside the load-bearing elements of the building. This allows, firstly, to realize reliable thermal protection of columns and ends of floor slabs. Secondly, using standardized frame elements, only due to the length of the external elements and the displacement of the inner formwork sheet deep into the building, any thickness of a monolithic wall can be made, depending on the purpose of the building. The frame is also used for fastening through the formwork sheet of the clamps. Klyammers perform two functions: firstly, they are designed to quickly and reliably mount heavy cladding elements; secondly, they serve as an overlay for fastening the formwork sheet. The clammer housing forms a ventilation gap between the formwork and the lining, which can be increased by substituting the gasket or washer.

To obtain the maximum technical result, a number of distinguishing features of the claimed multilayer wall can be specified.

For ease of installation, the vertical racks of the frame can be made of a steel box or a bent profile of rectangular section, and horizontal profiles in the form of a U-shaped profile with a flanging of the walls by 90 ° (hat-shaped profile). To increase the durability of the structure, the vertical posts and horizontal profiles can be made of galvanized metal and / or coated with a composition that prevents the formation of rust. The horizontal profiles of the frame can be fastened to the vertical posts by welding and / or screw connections and / or rivets.

In addition, glass-magnesium, cement-magnesium, gypsum plasterboard or cement-bonded particle boards can be used as the mentioned sheets of fixed formwork, 600 mm × 600 mm ceramic granite plates can be used as the facing elements, and monolithic polystyrene concrete with a specific gravity of 400-600 kg can be used / m ³ and / or expanded clay concrete.

To improve the decorative properties of the facade, the mentioned stainless steel clamps can be coated with heat-resistant paint, similar in color to the facade cladding elements, and subjected to heat treatment. The installation speed increases markedly if blind rivets are used as fasteners for the external formwork and clamps.

In addition, the ventilation gap can be increased by installing between the formwork sheet and the gasket clamp.

In addition, devices and communications of technological engineering systems can be placed inside fixed formwork before filling the wall with light concrete, which reduces labor costs and increases the speed of construction.

Figure 1 presents a vertical section of a multilayer wall with a lining.

Figure 2 presents a view of I in figure 1.

The wall (see Fig. 1) contains a vertical stand 3, fixed on the embedded part 1 by a remote element 2, a horizontal profile 4, the outer sheet of the fixed formwork 6, the clamp 7, the fastener 8, the facing element 9, the inner sheet of the fixed formwork 10, light concrete 11.

The proposed utility model is implemented as follows:

- the bearing capacity of the building is provided with capital elements, including columns and floor slabs;

- in the load-bearing element of the building, for example, on the edge of the ceiling, the embedded part 1 is mounted, to which the remote element 2 is attached.

- on the remote elements 2 are installed along the entire height of the building with the required pitch vertical racks 3.

- along the entire length of the wall mounted horizontal profiles 4, taking into account window and other openings. Horizontal profiles are rigidly fastened with vertical posts 3, for example, rivet 5. Modern fasteners, for example, stainless steel rivets, can withstand shear loads of up to 4700 N or more, so tying the wall with vertical and horizontal elements gives the wall additional strength, and the building - seismic stability. Horizontal profiles are set in steps between their centers along the height of the future cladding. For example, when using 600 mm × 600 mm porcelain tile, the pitch will be 604 mm.

- mount the outer sheets of fixed formwork 6 and clamps 7.

The operation of mounting the clamps can be combined with the fastening of the outer sheet of the fixed formwork 6. In this case, holes corresponding to the holes in the clamp 7 are drilled through the outer sheet of the fixed formwork 4, for example, according to a prepared template or jig. Then, the clamp 7 is pressed against the sheet of fixed formwork, and all three elements are fastened together by a fastening element 8, preferably by a long blind rivet: horizontal profile 4, the outer sheet of fixed formwork 6 and clamp 7. In this case, there is no need to use a rivet pad, the function of which performs the clammer plane.

- mount the facing elements 9, for example, porcelain tiles, pushing them in turn into the clammers 7.

As can be seen from the drawing of figure 1, the facade element forms a small air gap with a sheet of fixed formwork. In the capital construction of residential and administrative buildings using ventilated facades, conditions must be fulfilled that contribute to the reduction of heat loss. In the claimed design, the air gap performs a ventilation function, but turbulent ascending air flows cannot occur in it, which increase the heat loss of the building in the cold season. The amount of air gap can be adjusted by laying under the clamp.

The columns and floors of the building together with the steel frame of the strapping provide the rigidity of the entire structure, including multi-storey, up to 150 m high.This allows the installation of external sheets of fixed formwork and facade cladding along the entire height of the building even before the formwork is poured with light concrete. Already at this stage, the construction is enclosed in an external shell, and all further internal work is practically independent of weather conditions.

Then, internal work is performed on the installation of the claimed multilayer wall with cladding:

- fasten the formwork sheets 10 to a height of 1000 mm on the load-bearing elements of the building, encircling the perimeter and using, for example, guides and rack profiles, dowel nails and self-tapping screws (not shown in the drawing). The minimum thickness of the poured light concrete is equal to the total thickness of the vertical column 3 and horizontal profile 4, the maximum thickness can be 500-700 mm, and when placing the supporting columns inside the formwork - more than a meter.

- in the formwork space, the necessary electrical and ventilation communications are laid, for example, in flexible corrugated tunnels;

- hardening mortar of light concrete 11, for example, polystyrene concrete, is poured into the formwork space, monopolizing the wall with the inclusion of a rigid frame, technological communications, and, if necessary, load-bearing columns of the building. Concrete is poured on all walls in a circular fashion around the entire perimeter of the building. The process of building up the inner formwork from the bottom up is repeated many times.

It is advisable that the step of arrangement of the uprights 3 is no more than 2-4 of the width of the facing element 9, and the installation step of the profiles 4 is approximately equal to the height of the facing elements, which provides structural rigidity sufficient to mount the outer wall over the entire height of a multi-story building without mounting the inner wall.

As lightweight concrete, it is advisable to use polystyrene concrete or expanded clay concrete with a specific gravity of 400-600 kg / m ³ . In the wall array of monolithic polystyrene concrete, cold air is scattered around the polystyrene foam balls, while the effective distance at which the temperature difference from atmospheric to room temperature is realized, as well as the "path" of air penetration through the wall, are significantly increased. The vapor permeability of polystyrene concrete grade D 400, in accordance with GOST R51263-99, is 0.085 mg / (m × h × Pa), which is comparable with the vapor permeability of dry wood. Polystyrene concrete of a porous structure with a cement flow rate of 200 kg / m ³ or more provides, under normal operating conditions, long-term corrosion protection of the steel frame.

After pouring concrete, the wall sits on the major floors, unloads the remote console and becomes self-supporting.

The multilayer external wall with the cladding declared in accordance with the utility model is integral, is a single unit and meets the following requirements: fire hazard class K0, increased sound insulation up to 250 dB, high frost resistance F75-F100, low thermal conductivity in the dry state 0.125-0.145 W / (m × ° C); the wall does not require the use of additional insulation and additional decoration of the facade.

Due to the high strength of the claimed system for fixing the facade coating, the outer cladding can be made of heavy, durable materials, mainly from ceramic granite slabs. The fastener design simplifies the washing and repair of the facade. The facade section is easily repaired since the cladding panels are, in fact, removable.

The presence of a ventilation gap between the wall and the facade cladding eliminates the accumulation of condensate and increases the durability of the wall. The air gap, arranged during cladding of the facade with cladding elements, in addition to the main role - the removal of condensate, also performs heat-shielding functions. Therefore, in addition to the main insulation - lightweight concrete, there are four additional additional layers of thermal insulation - two layers of formwork, an air gap and a facing plate. This allows you to increase the heat-shielding properties of the wall by about 5-6 times compared with brickwork and to ensure compliance with the requirements of SNiP for sound insulation and heat protection with wall thickness less than 500 mm.

The combination of known and new significant features that characterize the claimed utility model is not found in accessible sources of information. This proves the novelty of the claimed utility model. The utility model can be repeatedly implemented in accordance with the given assembly technology with the achievement of the specified technical result, which proves its industrial applicability.

Information sources:

1. Laminated monolithic wall. Pat. RF №25197 U1, 2002, Pat. RF №2215097 C1, publ. 2003.

2. Multilayer vertical building construction. Patent RU No. 58566 U1, publ. 2006.

3. The method of construction of self-supporting outer walls of frame-monolithic houses. Patent RU No. 2363820 C1, publ. 2009.

4. The building is construction. Pat. RU No. 85928 U1, publ. 2009.

Claims (13)

1. A multilayer outer wall with cladding, containing a rigid frame made of vertical columns and horizontal profiles, the inner and outer walls of fixed formwork, the space between which is filled with monolithic light concrete, facade cladding elements, fasteners, characterized in that the inner sheet of fixed formwork attached to the supporting elements of the building, for example, by means of guides and rack profiles, the racks of said rigid frame by means of external elements, for example, scarves, you carried outside the columns of the building at a distance of 0.05 to 0.3 m, horizontal profiles are fixed on the posts along the length of the wall with a step approximately equal to the width of the facing elements, external sheets of fixed formwork are fixed on horizontal profiles, and in the places where the formwork is fixed the clammers of the facade cladding elements, which simultaneously serve as the formwork attachment plates, while the said clammer is adjacent to the outer formwork sheet and by means of fasteners passing through the formwork sheet, rikreplen to the horizontal profile, so that the covering elements form a front outer sheet casing ventilation gap not less than the thickness of the capping. 2. The wall according to claim 1, characterized in that the said vertical frame pillars are made of a steel box or of a bent profile of rectangular cross section. 3. The wall according to claim 1, characterized in that the said horizontal profiles of the frame are made in the form of a U-shaped profile with a flanging of the walls by 90 °. 4. The wall according to claim 1, characterized in that the horizontal profiles are fastened with vertical posts by welding, and / or screw connections, and / or rivets. 5. The wall according to claim 1, characterized in that the vertical posts and / or horizontal profiles are made of galvanized metal. 6. The wall according to claim 1, characterized in that the vertical posts and / or horizontal profiles are coated with a composition that prevents the formation of rust. 7. The wall according to claim 1, characterized in that glass-magnesium, and / or cement-magnesium, and / or gypsum plasterboard, and / or cement-bonded particle boards are used as the said sheets of fixed formwork. 8. The wall according to claim 1, characterized in that the said clamps are made of stainless steel and coated with heat-resistant paint, similar in color to the facade cladding elements, subjected to heat treatment. 9. The wall according to claim 1, characterized in that the exhaust rivets are used as fasteners of the clammer. 10. The wall according to claim 1, characterized in that between the sheet formwork and the clamp is additionally installed gasket that increases the amount of ventilation gap. 11. The wall according to claim 1, characterized in that as said facing elements porcelain tiles are used. 12. The wall according to claim 1, characterized in that monolithic polystyrene concrete and / or expanded clay concrete is used as lightweight concrete. 13. The wall according to claim 1, characterized in that the devices and communications of technological engineering systems are located at least partially inside the fixed formwork.