There are “alternative estimate documents”, please order if you wish. Sample document forms are mainly used for internal use to view in detail and calculate the costs included in the estimate documentation. They eliminate the need to use a calculator and have any in-depth knowledge of budgeting.
Examples of estimates and calculations for construction, repair and installation:
Examples and sample documents are presented tentatively and therefore serve as a guide for understanding the work being performed. All requirements for estimate documentation and acts are indicated in the letter and then agreed with us.
Standard forms of documents (sample) for construction:
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Help on form KS3 |
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Defective statement (bill of quantities) |
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Consolidated estimate calculation (SSR) |
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Object estimate (OS) |
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List of resources (calculation of material requirements) |
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Local estimate calculation (LS) |
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Costing for work in Excel |
1. Complex earthworks.
Cutting off the plant layer of soil;
Excavation of a pit or trench by removing it or loading it into dump trucks;
Transportation of soil by dump truck or bulldozer;
Cleaning the bottom of the pit manually;
Installation of a sand cushion under the foundation (if necessary);
Backfilling.
2. Construction of foundations made of monolithic reinforced concrete.
Unloading and sorting reinforcing mesh and formwork elements;
Enlarged assembly of formwork panels;
Installation of formwork;
The same for reinforcing bars, meshes and frames;
Innings concrete mixture;
Laying concrete mixture;
Curing;
Dismantling of formwork.
3. Construction of foundations made of prefabricated reinforced concrete.
Installation of foundation blocks around the perimeter of the building;
The same for wall blocks of the first row, second row, etc.;
Same landings and marches;
The same for basement floor slabs.
4. Installation of the frame of a one-story industrial building.
Unloading and laying out structures;
Installation of columns in foundation glasses;
Concreting joints of columns in foundation shells;
Enlarged assembly of trusses (if necessary);
Installation of crane beams;
Same under truss structures;
The same for rafter structures;
The same covering slabs;
Electric welding of installation joints;
Concreting the joints of columns with crane beams, farms;
Filling the joints of the coating slabs.
5. Installation of a typical floor made of monolithic reinforced concrete.
Unloading and sorting of reinforcement products and formwork panels;
Enlarged assembly of formwork panels (if necessary);
Delivery of formwork to the installation site;
The same for reinforcing mesh and frames;
Welding works;
Concrete mix supply;
Laying concrete mixture;
Curing;
Dismantling of formwork.
6. Installation of a typical precast concrete floor.
Unloading and other lifting and transport operations;
Installation of external wall panels;
The same is internal;
The same partitions;
Same flights of stairs and sites;
The same for plumbing cabins and ventilation units;
The same floor slabs, balcony slabs;
Welding works;
Sealing seams of external and internal walls;
Filling the seams of floor slabs.
7. Roof installation.
Preparation of the roof base (cleaning, drying, priming);
Supply of materials to the roof;
Vapor barrier device;
The same insulation;
The same screeds;
Gluing rolled carpet;
Installation of a protective layer;
Arrangement of junction points.
8. Plastering surfaces.
Surface preparation;
Plastering (grouting) joints between prefabricated floor panels;
Plastering walls;
Cutting corners;
Plastering window and door slopes.
Drawing up a statement of quantities.
After specifying the requirements for completion of the preceding or preparatory processes and descriptions of the technological sequence of operations, the scope of work should be determined.
When developing a technological map for the installation of structures made of monolithic or prefabricated reinforced concrete, before drawing up a bill of quantities, it is necessary to draw up a specification of monolithic reinforced concrete structures(Table 2.1) or specification of mounting elements (Table 2.2), respectively.
Filling out the Specification of Monolithic Reinforced Concrete Structures should begin with identifying, from the working drawings, all elements and structures that are relevant to the technological map being developed. Their list is entered in column 2. Columns 3, 4, 5, 6 and 8 are filled out on the basis of working drawings. The results of the product of columns 4, 5, 6 are entered in column 7. The total volume of concrete for all elements (column 9) is determined by the product of the values in column 7 by the values in column 8.
Table 2.1
Specification of monolithic reinforced concrete structures
Filling out the Specification of installation elements is also carried out on the basis of accepted architectural, planning and constructive solutions. Columns 2-8, 10 are filled out in accordance with the working drawings. Column 9 is filled in only for plate elements (walls, floor slabs, etc.) by multiplying the values of column 4 by column 5. Columns 11 and 12 contain the results of multiplying the values of column 7 by 10 and column 8 by 10, respectively.
Table 2.2
Specification of mounting elements
| No. | Name of elements | Brand | Dimensions, m | Volume Cub.m | Weight, t | Area sq.m | Quantity, pcs. | Volume of all elements | Weight of all elements, t | ||
| Length | Width | Height (thickness) | |||||||||
| 1 | Foundation beam | FB6-2 | 5,05 | 0,26 | 0,45 | 0,52 | 1,3 | - | 11,96 | 29,9 | |
| 2 | Outer columns | K96-1 | 0,4 | 0,4 | 10,5 | 1,68 | 4,2 | - | 36,96 | 92,4 | |
| 3 | Cover plate | PG-1-4 | 0,3 | 1,16 | 2,9 | ||||||
The bill of quantities (Table 2.3) includes all the main and auxiliary processes that are carried out in the complex construction process being designed. The scope of work is determined using specifications of elements, as well as working drawings. In column 2 all processes carried out during the production of the type of work for which the development is being developed are entered sequentially. routing. The units of measurement in column 3 must correspond to those given in the EniR on this process enlarged meters. Next, column 5 is filled in with the calculation formulas, or, if the calculation was made earlier, with an indication of the place in the settlement and explanatory note. The calculation results are entered in column 4, taking into account the units of measurement given in column 3.
Table 2.3
Bill of quantities
| No. | Process name | Scope of work | Calculation | |
| Unit measured | Qty | |||
| 1 | Cutting off the plant layer of soil (group I) | 1000m 2 | 0,6 | Spl = apl * bpl, where apl is length construction site, bpl – width V = 100 * 60 = 600 (m2) |
| 2 | Construction of a monolithic reinforced concrete column | m 3 | 7,2 | see clause 2 of table 2.1 |
| 3 | Installation of foundation beams | PC. | 23 | see clause 1 of table 2.2 |
| 4 | Construction of floors from ceramic tiles | 100m 2 | 0,44 | S = a * b, where a is the length of the surface, b is the width. S =4*5 + 3*8 = 44 (m2) |
And counting volumes
Determination of the nomenclature of work
Accepted structural elements
Schedule
Part I. Development
2nd floor plan
To determine the volume of construction and installation work, the following must be adopted: building construction and products:
- foundations– prefabricated reinforced concrete slabs and blocks;
- brick walls and partitions:
a) external – 640 mm thick,
b) internal – 380 mm thick,
c) partitions – 120 mm thick;
- window–OK1 – 1500 × 1500 – 10 pcs.,
OK2 – 1200 × 1500 – 1 piece;
- doors– D1 – 1000 × 2100 – 1 pc.,
D2 – 900 × 2100 – 5 pcs.,
D3 – 1200 × 2100 – 2 pcs.,
D4 – 700 × 2100 – 3 pcs.;
- floor and coating slabs– prefabricated reinforced concrete hollow cores;
- jumpers– prefabricated reinforced concrete;
- roof– combined covered with four-layer roofing material, pitched, rafter, covered with metal tiles;
- floors– ceramic tiles (in bathrooms),
linoleum (in other rooms);
- finishing– wallpapering the walls (in residential premises) and ceramic tiles in bathrooms;
Table 1
| No. | Name of construction and installation work performed | Unit change | Sketch or calculation formula, course project sheet | Qty | Table according to SNiP IV-2-82 | |
| I. Excavation | ||||||
| Construction site layout | 1000 m 2 | 10 m on each side were added to the dimensions of the building (25.5+2×0.64+2x10) × × (13.2+2×0.38+2×10)/1000=(46.28*33, 96)/1000=1.57 | 1,57 | SNiP IV-2-82 adj. v. 1 Table. 1–116 | ||
| Development and movement of soil with a bulldozer | 1000 m 3 | The fertile layer is removed by 20 cm 1.57× 0.2 =0.306 | 0,314 | Table 1–29 p. 1 | ||
| Excavation of a pit with an excavator, V 3 | 1000 m 3 | See counting drawing pages 19, 20 | 0,245 | Table 1–11 p. 1 | ||
| Manual soil cleaning, V 4 | 100 m 3 | 7% of the excavator development volume 0.25 × 0.07 = 0.0175 | 0,175 | Table 1–79 p. 1 | ||
| Backfill V 5: | V 5 =V 3 +V 4 -V f.pl = = 263 +17.5-54.5 = 226 m 3 V f.pl =18.86+35.72=4.5 m 3 | Table 1–81 Table 1–29 item 1 | ||||
| a) manually – 20% | 100 m 3 | 226×0.2/100=0.45 | 0,46 | |||
| b) mechanisms – 80% | 1000 m 3 | 226×0.8/1000=0.18 | 0,18 | |||
| II. Construction of foundations | ||||||
| Installation of foundation slabs: FP1 FP2 FP3 | 100 pieces. 100 pieces. 100 pieces. | 0,16 0,04 0,08 | Adj. v. 2 Table. 7–1 p. 3 | |||
Cont. table 1
| Installation of foundation blocks: FB1 FB2 FB3 | 100 pieces. 100 pieces. 100 pieces. | According to foundation layout drawings page 19 | 0,32 0,08 0,16 | Table 7–1 item 3 | ||
| III. Brick walls | ||||||
| External brickwork load-bearing walls 510 mm thick | m 3 | 133,40 | Table 8–5 p. 1 | |||
| Brickwork of internal load-bearing walls 380 mm thick | m 3 | The volume of masonry is determined by multiplying the area of the walls (minus the openings along the outer contour of the boxes) by the design thickness of the wall | 35,55 | Table 8–5 p. 4 | ||
| Brickwork partitions 120 mm thick | 100 m 2 | Square brickwork determined by multiplying the length of the partitions by the height minus the area of the openings along the outer contour of the boxes | 0,37 | Table 8–5 p. 8 | ||
| Installation of lintels over openings in external and interior walls | 100 pieces. | According to specification page 26 | 0,70 | Table 7–38 p. 10 | ||
| Installation window sill boards | 100 m 2 | See calculation page 18 | 0,07 | Table 8–18 p. 2 | ||
| IV. Installation of floor slabs and coverings | ||||||
| Installation of slabs: PC1 PC2 PC3 PC4 | 100 pieces. | According to layout drawings pages 23, 24 | 0,11 0,05 0,12 0,06 | Table 7–39 p. 5, 6 | ||
| V. Filling openings | ||||||
| Filling window openings | 100 m 2 | The area of window openings is measured by multiplying their width by the height along the outer contour of the frames | 0,24 | Table 10–13 p. 4 | ||
Cont. table 1
| Filling doorways | 100 m 2 | The area of doorways is measured by multiplying their width by the height along the outer contour of the frames | 0,21 | Table 10–20 p. 1 | |
| VI. Roofing device | |||||
| Laying vapor barrier | 100 m 2 | 10.2×8.4 = 85.68 | 0,86 | Table 12–9 p. 6 | |
| Insulation device | 1 m 3 | 85.68 × 0.2 = 17.14 | 17,14 | Table 12–9 p. 1 | |
| Roofing device | 100 m 2 | S cr = S mountains × K; K=1.41 S cr =(8.4+2×0.31+2××0.6) × (10.2+2×0.51+ +2×0.6)×1.41 = =10.22×12.42×1.41= =178.97 | 1,79 | Table 12–7 p. 2 | |
| VII. Floors | |||||
| Linoleum floors | 100 m 2 | 1,36 | Table 11–28 | ||
| Ceramic tile floors | 100 m 2 | F floors are taken from the explication of floors | 0,10 | Table 11–23 p. 1 | |
| VIII. Interior decoration | |||||
| Plastering walls and partitions | 100 m 2 | Determined by multiplying the perimeter of the room by the height minus the openings | 4,55 | Table 15–55 p. 1 | |
| Plastering ceilings | 100 m 2 | Area along the internal contour × 2 | 1,46 | Table 15–55 p. 2 | |
| Glue painting of ceilings | 100 m 2 | Area along the internal contour × 2 | 1,46 | Table 15–152 p. 1 | |
| Wallpapering walls and partitions | 100 m 2 | Everything except the bathroom | 4,02 | Table 15–252 p. 1 | |
| Oil painting of window fillings | 100 m 2 | When determining the scope of work, k=2.8 S of all windows × 2.8 is used | 0,68 | Table 15–158 p. 5 | |
| Oil painting of door fillers | 100 m 2 | When determining the scope of work, k=2.4 S of all doors × 2.4 is used | 0,52 | Table 15–158 p. 4 |
Finish table 1
Calculations for table. 1