INSTRUCTIONS AND PROPHECIES OF THE Blessed MOTHER ALIPIA GOLOSEEVSKY, Kyiv...
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Projects of houses with a bay window are often found on the Alfaplan website. Such developments are always a success with customers, which is not difficult to understand. A house with a bay window looks romantic and original, small extensions give it unique charm. And inside the room looks even better - in it more space, more light, more comfort and style.
A bay window is a small (and sometimes quite large) external ledge in a wall. The bay window can be located both on the first and on the second or third floor of the cottage. It can be round, square, triangular or polyhedral.
Creating a house plan with a bay window, the architect is not limited in flights of fancy and can apply the most daring and unusual solutions. Many clients, turning to us, from the very beginning of the discussion of the project, focus on this architectural element - the bay window. Why?
Many people simply do not imagine the real Vacation home without bay window. The house can be small and one-story, but always with this element. If you are interested in buildings of this type, the site catalog contains ready-made projects of houses and cottages with a bay window.
If you don't like any finished project country house with a bay window from our catalog, then our employees are ready to listen to you and develop exclusive sketch. We guarantee a professional approach and high-quality implementation of the project exactly on time. good project- the key to successful construction and pleasant operation of the facility.
Original projects of houses with a round or square bay window are in constant demand from our customers. This architectural element is a part of the building - a columnar or polygonal ledge that extends beyond the boundaries of the facade and is glazed on all sides. It gives any, even the simplest building, an elegant look.
The prototype of the bay window can be called watchtowers that vaguely resemble it, which were built in medieval castles. Niches open on three sides made it possible to notice the approaching enemy from afar. Over time, they lost their combat value, and became an element of decor. In Gothic architecture it was called a "lantern", in Russian architecture hexagonal "drums" were common.
AT modern projects cottages with one or two bay windows in front, columns, they are assigned not only a decorative, but also a functional role. They improve the insolation of the building, especially from the north side, where the sun enters the side windows from the east in the morning and from the west in the evening. They are often built several stories high - this technique is used in buildings with a second light.
Our catalog contains photos of cottages with full documentation different area, with an attic, a balcony and other interesting elements. They are built from different building materials.
Facades with a porch in the form of a bay window, or with its location in the corner part, look very stylish and modern. They focus attention on themselves, forming the compositional center of the architectural ensemble.
Larisa
Answer:
Hello Larisa. 20-36 belongs to a series of houses - The project of the house was designed using gas silicate blocks . The house project you are considering, in which as a material bearing walls used ceramic block Cayman30, is listed in our catalog under the number . ceramic blocks Cayman30 outnumber gas silicate / aerated concrete blocks according to all the main characteristics: strength, heat saving. At the same time, the final costs will be lower when choosing ceramics.. For more details, see the cost comparison below.
House project for free
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You can see the calculation in numbers at the end of this answer.
Strength wall materials is determined by the limiting pressure of the distributed load on the test sample and is characterized by the number of kilograms of force (kgf) applied to one square centimeter of the surface of the material.
So ceramic block Cayman30 has a strength grade M75, which means that one square centimeter able to withstand a load of 75 kg.
The value of the strength grade of a gas silicate block with a density of 500 kg / m 3, from different manufacturers, ranges from M35 to M50. As a result, according to the instructions of the manufacturers of gas silicate blocks, every third row of masonry should be reinforced, as shown in the photo below.
Ceramic block masonry Kaiman 30 reinforced only at the corners of the building, per meter in each direction. For reinforcement, a basalt-plastic mesh is used, which is laid in the masonry joint. Labor-intensive chasing and subsequent covering of the reinforcement in the strobe with glue is not required.
Masonry mortar during the installation of ceramic blocks is applied only along the horizontal masonry seam. The bricklayer applies the solution immediately to one and a half to two meters of masonry and starts each next block along the groove-ridge. The laying is very fast.
When installing gas silicate blocks, the solution must also be applied to side surface blocks. It is obvious that the speed and laboriousness of masonry with this method of installation will only increase.
Also, for professional masons, sawing ceramic blocks is not a problem. For this purpose, it is used reciprocating saw, with the help of the same saw, gas silicate blocks are also sawn. In each row of the wall, only one block is required to be cut.
To begin with, we will determine the required thermal resistance for the external walls of residential buildings for the city of Dmitrov, as well as the thermal resistance created by the structures under consideration.
The ability of a structure to retain heat is determined by such a physical parameter as the thermal resistance of the structure ( R, m 2 *S/W).
Let us determine the degree-day of the heating period, °С ∙ day/year, according to the formula (SNiP "Thermal protection of buildings") for the city Dmitrov.
GSOP = (t in - t out)z out,
where,
t in- the design temperature of the internal air of the building, ° С, taken when calculating the enclosing structures of the groups of buildings indicated in table 3 (SNiP "Thermal protection of buildings"): according to pos. 1 - by minimum values optimal temperature corresponding buildings in accordance with GOST 30494 (in the range 20
- 22 °С);
t from - average temperature outdoor air, °С during the cold period, for the city of Dmitrov meaning -3,1
°C;
z from- duration, days / year, of the heating period, adopted according to the set of rules for the period with an average daily outdoor temperature of not more than 8 ° C, for the city Dmitrov meaning 216 days.
R tr 0 \u003d a * GSOP + b
where,
R tr 0- required thermal resistance;
a and b- coefficients, the values of which should be taken according to table No. 3 of SNiP "Thermal protection of buildings" for the corresponding groups of buildings, for residential buildings the value a should be taken equal to 0.00035, the value b - 1,4
The formula for calculating the conditional thermal resistance of the considered structure:
R0 = Σ δ n /λ n + 0,158
Where,
Σ
– symbol of summation of layers for multilayer structures;
δ
- layer thickness in meters;
λ
- coefficient of thermal conductivity of the layer material under the condition of operational humidity;
n- layer number (for multilayer structures);
0.158 is a correction factor, which can be taken as a constant for simplicity.
Formula for calculating the reduced thermal resistance.
R r 0 \u003d R 0 x r
Where,
r- coefficient of thermal engineering homogeneity of structures with inhomogeneous sections (joints, heat-conducting inclusions, porches, etc.)
according to standard STO 00044807-001-2006 according to Table No. 8, the value of the coefficient of thermal uniformity r for masonry from large-format hollow porous ceramic stones and gas silicate blocks should be taken equal to 0,98 .
At the same time, I draw your attention to the fact that this coefficient does not take into account the fact that
R r 0 must be greater than or equal to R 0 required.
We determine the operating mode of the building in order to understand what thermal conductivity coefficient λ a or λ in taken when calculating the conditional thermal resistance.
The procedure for determining the operating mode is described in detail in SNiP "Thermal protection of buildings" . Based on the specified normative document Let's follow the step by step instructions. 1st step. Let's define hmoisture content of the building region - Dmitrov using Appendix B of SNiP "Thermal protection of buildings". |
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According to the city table Dmitrov located in zone 2 (normal climate). We accept the value 2 - normal climate. 2nd step. According to Table No. 1 of SNiP "Thermal protection of buildings" we determine the humidity regime in the room. At the same time, I draw your attention to the fact that during the heating season, the humidity in the room drops to 15-20%. During the heating season, air humidity must be raised to at least 35-40%. Humidity of 40-50% is considered comfortable for a person. |
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According to Table 1, the humidity regime in the room during the heating period at an air temperature of 12 to 24 degrees and a relative humidity of up to 50% - dry. 3rd step. According to Table No. 2 of SNiP "Thermal protection of buildings" we determine the operating conditions. To do this, we find the intersection of the line with the value of the humidity regime in the room, in our case it is dry, with humidity column for city Dmitrov, as explained earlier, is the value normal. |
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Summary. |
Julia
Answer:
![]() House project you are considering 95-25 belongs to a series of houses - The project of the house was designed using the most heat-efficient ceramic blocks among those produced in Russia Kerakam Cayman30. Application of ceramic blocks Cayman30allows you to build country houses that meet all applicable standards, and in particular, those that meet SNiP "Thermal protection of buildings" for cities such as Yekaterinburg, Novosibirsk, Perm, Krasnoyarsk,
withoutinclusion in the design of the external wallweak link- layer insulation.
The project of a house made of ceramic blocks is included in the promotion House project for free
. |
Below I give a complete set and the final cost of materials and work in the construction of a house according to the project 95-25.
Package Economy | Equipment Standard |
Premium package |
|
Foundation | Monolithic reinforced concrete pile-grillage. 213
000.00 rubles |
Monolithic reinforced concrete pile-grillage. RUB 213,000.00 |
Monolithic reinforced concrete tape. RUB 563,000.00 |
Finishing materials plinths and blind areas |
Drainage membrane Fake diamond Concrete pavement around the house RUB 110,000.00 |
Drainage membrane Fake diamond Clinker pavers around the house RUB 164,000.00 |
Drainage membrane Fake diamond Clinker pavers around the house RUB 228,000.00 |
Load-bearing wall materials and partitions |
Kerakam Cayman30, frame partitions with 2-layer sheathing drywall. RUB 664,000.00 |
Heat efficient ceramic block Kerakam Cayman30, ceramic RUB 669,000.00 |
Heat efficient ceramic block Kerakam Cayman30, ceramic partitions and all equipment. RUB 669,000.00 |
reinforcement elements masonryand monolithic belts |
Reinforcing the corners of the house using basalt reinforcement grids fiberglass reinforcement floors and roofs 76 000 rubles |
Reinforcing the corners of the house using basalt reinforcement grids Monolithic reinforced belts 41 000 rubles |
Reinforcing the corners of the house using basalt reinforcement grids Monolithic reinforced belts fiberglass roof reinforcement 41 000 rubles |
Jumpers | Reinforced concrete monolithic 65,000 rudders |
Reinforced concrete monolithic 65,000 rudders |
Reinforced concrete monolithic 65,000 rudders |
Stair materials porches, terrace stairsand columns |
Monolithic reinforced concrete RUB 75,000.00 |
Monolithic reinforced concrete RUB 75,000.00 |
Monolithic reinforced concrete RUB 75,000.00 |
Terrace cover and porches |
Reinforced concrete monolithic 88 000 rudders |
Reinforced concrete monolithic 88 000 rudders |
Reinforced concrete monolithic 88 000 rudders |
Plinth coverat home |
Floor decking - DSP #20mm vapor barrier Thermal insulation URSA PureOne 240mm DSP overlay filing #10mm Floor - ready for flooring RUB 280,000.00 |
Monolithic reinforced concrete plate 220mm RUB 290,000.00 |
Monolithic reinforced concrete plate 220mm Inventory formwork costs RUB 290,000.00 |
Interfloor overlap |
Glued laminated timber LVL 45*240mm plus fasteners RUB 238,000.00 |
Monolithic reinforced concrete RUB 235,000.00 |
Monolithic reinforced concrete RUB 235,000.00 |
Attic floor |
bar natural humidity RUB 155,000.00 |
Glued laminated timber LVL 45*240mm plus fasteners RUB 234,000.00 |
Glued laminated timber LVL 45*240mm plus fasteners RUB 234,000.00 |
Cladding materials facade |
Leveling thermal insulation plaster decorative textured silicone Terraco plaster (Sweden) applied by roller 76 000 rubles |
Leveling heat-insulating plaster decorative silicone plaster Terraco (Sweden) "bark beetle" 121 000 rubles |
Facial ceramic brick 22-23 rub/piece colored masonry solution 501 000 rubles |
Plastic windows, Entrance door |
Double glazing 315,000 rubles |
Double glazing 315,000 rubles |
Double glazing 315,000 rubles |
truss system | Bar of natural moisture 1st grade 45*200mm plus fasteners 193 000 rubles |
Glued laminated timber LVL 30*200mm plus fasteners
|
RUB 370,000.00 |
Roof materials | metal tile 256,000 rubles |
Flexible roof tiles 302,000 rubles |
Cement-sand tiles 312,000 rubles |
Hemming of eaves and gableoverhangs |
Vinyl spotlights 90 000 rubles |
Vinyl spotlights 90 000 rubles |
Vinyl spotlights 90
000.00 rubles |
Gutter system | 122 000 rubles | 122 000 rubles | 122 000 rubles |
Chimneys | 122 000 rubles |
Stainless steel chimneys 122 000 rubles |
Ceramic chimneys RUB 165,000.00 |
ventilation shafts | Ceramic ventilation shafts 12 000 rubles |
Ceramic ventilation shafts 12 000 rubles |
Ceramic ventilation shafts 12 000 rubles |
Preparation for finishing |
- | Floor insulation RUB 198,000.00 |
Floor insulation (extruded polystyrene foam 130mm) Reinforced with basalt mesh rough screed floor basement floors and floors. Self-levelling finish screed RUB 198,000.00 |
Preparing for finishing wall decoration and partitions |
Plaster, putty of load-bearing walls, putty partitions. 102 000 rublesth |
255 000 rubles |
Plastering, puttying of load-bearing walls and partitions 255 000 rubles |
Preparation for finishing finishingceiling |
putty 14 000 rubles |
Leveling composition "stucco", putty RUB 28,000.00 |
Plaster on lighthouses, putty RUB 33,000.00 |
Total materials: Total work: |
3 267 000
rubles 2,620,000 rubles |
3 888 000
rubles 3,120,000 rubles |
4 861 000
rubles 3,890,000 rubles |
Natalia
Answer:
In the project documentation for the house 95-25
ceramic block laid Kerakam Cayman30.
The total cost will be lower when choosing a more technologically advanced ceramic block Kerakam Cayman30. More details below.
Application of ceramic blocks Cayman30 allows you to build country houses that meet all applicable standards, and in particular, those that meet SNiP "Thermal protection of buildings" for cities such as Yekaterinburg, Novosibirsk, Perm, Krasnoyarsk, without inclusion in the design of the external wall weak link- layer insulation.
At the same time, the cost of building one square meter of housing will be one of the lowest when compared with any stone block, including in comparison with gas silicate blocks.
Projects of houses from ceramic blocks are included in the action House project for free .
Under the terms of the promotion when buying ceramic blocks Cayman30 in our company we will refund you the cost of the project documentation paid by you.
All projects included in the action Project of a house for free are presented on the page