Services for preparing estimates for fire alarms. Drawing up estimate documentation for the design and installation of fire alarms
System security- fire alarm is modern equipment that provides reliable protection premises from intruders and fire. The OPS performs the following functions:
- fire tracking;
- detection of intrusion attempts;
- notification of emergency situations;
- activation of fire extinguishing means.
The modern market offers a huge number of such protection systems. For the installation to be successful, you need to entrust the work to an experienced specialist. And before installation it is necessary to draw up an estimate.
How does the cost estimate for the installation of fire alarm systems work?
Security and fire alarm system is a complex system, which has a lot of nuances, from preparation for installation to commissioning. That is why an estimate is made before installation. Thanks to the estimate, the customer can correctly calculate their costs. Estimate documentation is a special type of document. In the estimate, the cost of services is calculated and the justification for this price is written. When developing an estimate for the installation of a security and fire alarm system, the following are taken into account:
- type of system selected;
- preparatory work;
- necessary materials and tools;
- number of hours for installation;
- number of workers;
- commissioning works;
- cleaning after installation;
- Estimated profit is the final cost of services.
In this case, estimates for commissioning are often prepared separately. Commissioning is necessary to check serviceability and efficiency installed system. In order for the estimate to be drawn up correctly, you should contact an experienced specialist who:
- understands all the intricacies of estimate documentation;
- knows the features of installing a security and fire alarm system;
- understands commissioning work;
- has experience in developing and compiling similar estimates.
When creating an estimate, a specialist will be able to calculate the cost of each item separately, calculate the total price for installation and create an estimate for the security and fire alarm system, taking into account your budget. At the same time, you can always minimize costs by removing or replacing unnecessary items.
How to order an estimate for alarm installation
If you seek the services of a professional company that installs fire alarm systems, be prepared for the fact that they can draw up and calculate an estimate for a fee. In this case, it is much more profitable to turn to a private estimator to create the document, who will be able to calculate all the items and draw up an estimate relatively inexpensively.
You can order the services of experienced estimators on the YouDo website. To do this you need to fill out simple form applications. Indicate what type of estimate you require, as well as the price you are willing to pay for the development. Registered performers will be able to make you offers for cooperation if they are satisfied with your terms.
Look through the list of performers, compare their experience and prices for preparing an estimate for the installation of alarm systems and choose the right one. All performers are verified when registering on YouDo, so your order for an estimate will be completed at a high professional level.
The purpose of this seminar: to familiarize students with the existing main types of fire automatic systems, their classification and purpose, the list and characteristics of the fire equipment and materials used. Questions covered in class correct drafting estimates for fire automatics, examination of estimate documentation in this area, as well as drawing up estimates for design work on fire automatics.
Practical classes are held in the software systems “Smeta. ru", Grad-Smeta, Gosstroysmet, using the regulatory frameworks FER-2001 (as amended in 2014), TSN-2001 for Moscow, TSNB-2001 for the Moscow region. and etc.
Upon completion of the training, students receive a certificate.
Who is it for:
1. Managers and specialists of capital construction departments of enterprises various fields activities.
2. Managers and specialists of design and construction organizations, organizations performing the functions of a customer-developer, technical supervision.
3. Specialists from building maintenance departments.
4. Beginner estimators, as well as estimators with experience.
As a result of training you:
1. Learn about existing systems fire automatics used regulatory documents, certified equipment used.
2. Consider practical questions pricing and preparation of estimate documentation for fire automatic systems.
3. Receive recommendations on the use of correct prices and examination of estimate documentation for fire automatics using “Smeta.ru”, Grad-Smeta, Gosstroysmet.
Upon completion of the course we issue a certificate:
Reviews:
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5. Basic prices for design work on systems fire protection And burglar alarm
Table 5.1
Automatic installations water fire extinguishing
Natural indicator "X" |
Base price parameters |
Water fire extinguishing sprinkler systems protecting an object with an area, m2: |
from 200 to 400 |
from 400 to 600 |
from 600 to 1000 |
from 1000 to 1500 |
from 1500 to 2000 |
from 2000 to 4000 |
from 4000 to 6000 |
from 6000 to 8000 |
from 8000 to 11000 |
from 11000 to 14000 |
from 14000 to 18000 |
from 18000 to 23000 |
from 23000 to 28000 |
from 28000 to 33000 |
from 33000 to 38000 |
from 38000 to 44000 |
from 44000 to 50000 |
from 50000 to 70000 |
over 70000 |
Deluge water fire extinguishing installations protecting an object with an area, m2: |
from 50 to 100 |
from 100 to 150 |
from 150 to 200 |
from 200 to 400 |
from 400 to 600 |
from 600 to 800 |
from 800 to 1200 |
from 1200 to 1600 |
from 1600 to 2000 |
from 2000 to 2500 |
from 2500 to 3000 |
from 3000 to 3500 |
from 3500 to 4500 |
from 4500 to 5500 |
from 5500 to 6500 |
from 6500 to 8000 |
from 8000 to 9500 |
from 9500 to 12000 |
from 12000 to 15000 |
from 15000 to 20000 |
over 20000 |
Notes:
1. Basic prices take into account:
Carrying out design work related to fire extinguishing and installation automation;
Design of alarm systems for activation of sprinkler systems and deluge systems with hydraulic start.
2. Basic prices do not include:
Design of fire warning systems for installation with all starting methods.
3. Cost of plant design foam fire extinguishing determined with a coefficient of 1.3.
4. The cost of designing fire sprinkler systems combined with fire hydrants or foam nozzles is determined with a coefficient of 1.2.
5. The cost of designing deluge installations (curtains, monitors, fire hydrants) for fire extinguishing with manual control determined with a coefficient of 0.7.
6. The cost of designing installations with fire hydrants or foam trunks on a separate network is determined from the table depending on the area, using a coefficient of 0.5.
7. The cost of designing fire extinguishing installations for warehouses with high-rise rack storage is determined with a coefficient of 1.2; in this case, the total protected area is defined as the sum of the protected areas under the ceiling (covering) and screens inside the rack space. If the protected rack areas are identical, their sum is determined with a coefficient of 0.5.
8. The cost of designing fire detection installations with electric start is determined according to table 5.3, taking into account the notes.
9. The cost of designing deluge fire extinguishing installations using control and shut-off valves with an electric drive for control units is determined with a coefficient of 1.2.
10. The cost of designing deluge installations for volumetric foam fire extinguishing is determined with a coefficient of 1.2.
11. The cost of designing air and air-water fire extinguishing sprinkler systems is determined with a coefficient of 1.3.
12. The cost of designing installations with remote start devices for internal fire water supply pumps is determined with a coefficient of 1.2.
Table 5.2
Automatic fire extinguishing systems: gas, powder, aerosol, etc.
Name of the design object |
Natural indicator "X" |
Base price parameters |
in, rub./pcs. |
Automatic fire extinguishing installations: gas, powder, aerosol and others, depending on the number of protected premises (directions) at the facility: |
Notes:
1. Basic prices take into account:
Carrying out design work related to fire extinguishing and installation automation;
Design of alarm systems for installations with pneumatic and manual start.
2. Basic prices do not include:
Design of fire extinguishing installations with electric start;
Design of warning systems for installations with all starting methods.
3. The cost of designing fire extinguishing installations with one fire extinguishing station is determined with a coefficient of 1.3.
4. The basic price for designing fire extinguishing installations is given for rooms with a volume of up to 1000 m3. If there are premises with a volume of more than 1000 m3, a coefficient of 1.4 is applied to the basic design price.
5. Cost of designing manual installations gas fire extinguishing determined with a coefficient of 0.8.
6. The cost of designing fire detection equipment for installations with electric start is determined according to table 5.3, taking into account the notes.
7. By direction in this table we mean a room, structure (cable structure, space behind a suspended ceiling, etc.) and equipment ( spray booth, testing station, etc.).
Table 5.3
Automatic fire alarm installations
Name of the design object |
Natural indicator "X" |
Base price parameters |
Automatic fire alarm installations protecting an object with an area, m2: |
from 100 to 200 |
from 200 to 400 |
from 400 to 700 |
from 700 to 1000 |
from 1000 to 2000 |
from 2000 to 3000 |
from 3000 to 5000 |
from 5000 to 7000 |
from 7000 to 10000 |
from 10000 to 13000 |
from 13000 to 17000 |
from 17000 to 21000 |
from 21000 to 25000 |
from 25000 to 35000 |
from 35000 to 50000 |
over 50000 |
Notes:
1. If there are technological platforms, false ceilings, or false floors in the premises, their areas are summed up with the main area of these premises.
2. The cost of designing fire alarm systems for enterprises, buildings and structures for which it is necessary to generate an impulse to control fire protection and safety systems (smoke removal, warning people about a fire, air pressure in case of fire and other technological interlocks) is determined with a coefficient of 1.5.
3. The cost of designing fire alarm installations combined with manual fire call points is determined with a coefficient of 1.15.
4. The cost of designing installations with manual fire call points (without installing automatic fire detectors) is determined per object based on the area protected by the installation with manual fire call points, using a coefficient of 0.3.
5. The cost of designing installations with remote start devices for internal fire water supply pumps is determined with a coefficient of 1.2.
6. The cost of designing installations using linear optical and thermal fire detectors, light fire detectors, aspirating smoke detectors, gas fire detectors is determined with a coefficient of 1.2.
7. The cost of designing fire alarm installations in the space behind raised floors and false ceilings is determined with a coefficient of 1.2.
Table 5.4
Fire warning systems
Name of the design object |
Natural indicator "X" |
Base price parameters |
in, rub./unit nature pok. |
Voice fire alarm station (hardware) power, watt: |
from 300 to 700 |
from 700 to 1000 |
from 1000 to 2000 |
Linear part of a local radio broadcasting or fire alarm system with the number of loudspeakers, pcs.: |
from 100 to 300 |
from 300 to 500 |
from 500 to 700 |
from 700 to 1000 |
Sound fire alarm system (siren) in residential buildings from 10 to 25 floors, pcs.: |
Sound fire alarm system (autonomous sound emitters) with the number of sensors in the housing, pcs.: |
from 50 to 100 |
from 100 to 300 |
from 300 to 600 |
from 600 to 800 |
Note: if the sound fire warning system (siren or autonomous sound emitters) is produced as part of automatic fire prevention measures (AFM), then a reduction factor K = 0.7 is applied to the base price. The basic prices for the design of these systems are summed up with the basic prices of other systems in the APM section.
Table 5.5
Burglar alarm system
Name of the design object |
Natural indicator "X" |
Base price parameters |
in, rub./pcs. |
Number of security alarm sensors in the system, pcs.: |
from 50 to 100 |
from 100 to 250 |
from 250 to 500 |
from 500 to 750 |
from 750 to 1000 |
Notes:
1. The basic design price is given for an object with one line of protection. When protecting an object with two lines of protection, a coefficient of 1.2 is applied to the base price, with three lines of protection - a coefficient of 1.3.
2. If there are several on site separate rooms with different operating modes, as well as objects with different administrative subordination, for each operating mode and object of administrative subordination, a coefficient of 1.1 is applied to the base design price.
3. The cost of designing a security alarm with television surveillance installations is determined by summing up the cost of designing a security alarm installation, calculated according to Table 5.5 of this “Methodology”, and the cost of designing television surveillance, calculated according to the “Methodology for determining the cost of designing video surveillance systems carried out with the involvement of city budget funds Moscow. МРР-3.2.21.04-14".
4. The cost of designing a fire alarm installation is determined by summing up the cost of designing a fire alarm installation and the cost of designing a security alarm system, calculated according to tables 5.3 and 5.5 of this “Methodology”, using a reduction factor of 0.55.
Table 5.6
Perimeter security alarm installations
Name of the design object |
Natural indicator "X" |
Base price parameters |
in, rub./km |
Perimeter security alarm installations, length, km: |
from 0.2 to 0.4 |
from 0.4 to 0.6 |
from 0.6 to 0.8 |
from 0.8 to 1.0 |
from 1.0 to 2.0 |
from 2.0 to 3.0 |
from 3.0 to 4.0 |
from 4.0 to 5.0 |
from 5.0 to 6.0 |
from 6.0 to 7.0 |
from 7.0 to 9.0 |
from 9.0 to 11.0 |
from 11.0 to 13.0 |
from 13.0 to 15.0 |
from 15.0 to 25.0 |
Notes:
1. The base prices in the table take into account the costs of designing perimeter security alarm installations in one line with the number of blocking sections up to 5, with external power, control and alarm networks laid along the perimeter.
The cost of designing perimeter security alarm installations with more than 5 sections is determined with a coefficient of 1.15 with a subsequent (after 9 sections) increase for each of the 4 blocking sections by 0.15.
2. If it is necessary to design perimeter security alarm installations with security lighting, the design cost is determined with a factor of 1.5.
3. When designing perimeter security alarm installations for a terrain with an alternating difference in ground level marks of more than 1.5 m, a coefficient of 1.1 is applied to the base price of the site on which there is this difference (depending on the percentage of the length of the site on which there is a difference , and the total length of the perimeter alarm).
4. The cost of designing perimeter security alarm installations with two lines of protection is determined with a coefficient of 1.5, with three lines of protection - with a coefficient of 1.7.
5. The cost of designing perimeter security alarm installations with security lighting and applied television installations is determined by summing up the cost of design, calculated according to this table, taking into account Note 2, and the cost of design, calculated according to the “Methodology for determining the cost of designing video surveillance systems carried out using funds from the city budget Moscow. МРР-3.2.21.04-14".
Table 5.7
Smoke removal installation control systems
Name of the design object |
Natural indicator "X" |
Base price parameters |
Control systems for smoke removal installations at a facility area, m2: |
from 100 to 200 |
from 200 to 400 |
from 400 to 700 |
from 700 to 1000 |
from 1000 to 2000 |
from 2000 to 3000 |
from 3000 to 5000 |
from 5000 to 7000 |
from 7000 to 10000 |
from 10000 to 13000 |
from 13000 to 17000 |
from 17000 to 21000 |
from 21000 to 25000 |
from 25000 to 35000 |
from 35000 to 50000 |
over 50000 |
Notes:
1. The base prices in the table do not take into account the design of fire alarms.
2. The cost of designing a manually controlled system is determined with a factor of 0.7.
Table 5.8
Pumping stations of fire extinguishing installations
Notes:
1. The base prices in the table take into account the design pumping station with one group of fire pumps (including a backup one), having one characteristic, with the number of units 2, with motors with voltage up to 400 V, a hydraulic pneumatic tank (pulse device), with automatic start of the pumps. For voltages above 400 V, a factor of 1.4 is applied to the base price for designing a pumping station.
2. The cost of designing a pumping station is determined with the coefficient:
1,2 - with two groups of fire pumps or metering pumps or devices for the controlled introduction of foaming agents;
1.25 - with three groups of fire pumps or metering pumps or devices for the controlled introduction of foaming agents;
1.3 - with four groups of fire pumps or metering pumps or devices for the controlled introduction of foaming agents.
Table 5.9
Fire ventilation systems for buildings and structures
Name of the design object |
Natural indicator “X”, m2 total area object |
Base price parameters |
Residential buildings |
from 500 to 1000 |
from 1000 to 5000 |
from 5000 to 10000 |
from 10000 to 20000 |
from 20000 to 30000 |
from 30000 to 40000 |
over 40000 |
Hotels, administrative buildings, banks, offices and others public buildings, healthcare facilities (clinics, hospitals), educational facilities |
from 500 to 1000 |
from 1000 to 3000 |
from 3000 to 5000 |
from 5000 to 10000 |
from 10000 to 20000 |
from 20000 to 40000 |
from 40000 to 80000 |
over 80000 |
Shopping centers, restaurants, cafes, enterprises retail and catering, pharmacies |
from 250 to 500 |
from 500 to 1000 |
from 1000 to 2500 |
from 2500 to 5000 |
from 5000 to 10000 |
from 10000 to 15000 |
from 15000 to 25000 |
from 25000 to 40000 |
over 40000 |
Warm garages and car parking |
from 600 to 1500 |
from 1500 to 3000 |
from 3000 to 5000 |
from 5000 to 10000 |
from 10000 to 15000 |
from 15000 to 22000 |
from 22000 to 30000 |
over 30000 |
Notes:
1. If there are only type H1 smoke-free staircases in the building, a correction factor of 0.86 is introduced.
2. The base prices of the table are given for buildings with a height of up to 50 m. When designing buildings with a height of over 50 m to 75 m, a coefficient of 1.38 is applied to the base prices of the table.
3. When laying transit channels smoke ventilation through objects of different fire hazards, a coefficient of 1.2 is introduced.
4. The basic prices of design work determined according to this table take into account the costs of developing the electrical part of the projects fire ventilation in the amount of 10%.
Home / Drawing up estimate documentation for the design and installation of fire alarmsCost of education
ATTENTION!!! Hurry up to get training with a discount of up to 30%! Offer valid until 01/26/2020!!! You can start training whenever it is convenient for you. Sign up!Group schedule
start date | Training mode | Studying time |
27.01.2020 | Day | from 12-00 to 15-00, from 15-00 to 18-00 |
30.01.2020 | Evening | from 18-30 to 21-30 |
26.01.2020 | Weekend | from 10-00 to 16-00 |
Course program | Course Description | Reviews and comments |
Training program
1. Existing types fire automatic systems, their characteristics, purpose and principles of operation, terminology and symbols.
2. Review of the current regulatory documentation in the field of automatic fire alarms, including for the preparation of project documentation.
3. Special equipment and materials used during installation work.
4. Estimated regulatory framework (fire alarm): FER-2001 (as amended in 2014), TSN-2001 for Moscow, TSNB-2001 for the Moscow region. and etc.
5. Drawing up estimates for design work on fire alarms (according to SBC and MRR).
6. Selecting prices, materials, equipment and determining the scope of work for drawing up estimates for installation work By fire automatics(Practical part).
7. Acceptance certificates for work performed on OPS systems (KS-2, KS-3, M-29).
8. Examination of estimate documentation.
TC Sevastopol invites you to a seminar! We are ready to introduce listeners to numerous subtleties various processes, theoretical foundations activities. The classes will cover all topics related to budgeting and documentation examination. In practice, you will be able to work in popular programs, without which not a single modern, in-demand surveyor can operate.
At the seminar we will be glad to see both managers and specialists of the capital construction and building maintenance departments, as well as professionals in the field of design and technical supervision. The classes will be useful for both beginners and experienced surveyors. Teachers with many years of experience will explain all the intricacies of the work, and even reveal some secrets of ensuring activities.
While studying at the Sevastopol Training Center, you will be able to:
Learn a lot about fire automatics,
. get acquainted with the issues of pricing and preparation of estimates,
. get the most important recommendations on the use of prices and conducting examinations.
All this will allow you to develop professionally, improve, expand opportunities, and optimize your work. The narrow specialization you master will allow you to quickly find a high-paying job.