What to check when accepting aps after installation. As-built documentation for fire alarms

built by _____________________________________________________________________

(name of construction and installation organization)

and project number)

by the address: _______________________________________________________________________

(city, street, start and end picket references)

1. Characteristics of the gas pipeline (gas inlet)

The length (for input - underground and above-ground sections), diameter, operating pressure of the gas pipeline, type insulating coating linear part and welded joints (for underground gas pipelines and gas inlets), number of installed locking devices And

other structures ________________________________________________________________

________________________________________________________________________________

________________________________________________________________________________

2. List of attached certificates, technical passports (or copies thereof) and other documents certifying the quality of materials and equipment

________________________________________________________________________________

________________________________________________________________________________

________________________________________________________________________________

Note. It is allowed to attach (or place in this section) extracts from these documents, certified by the person responsible for the construction of the facility and containing necessary information(certificate number, brand (type), GOST (TU), dimensions, batch number, manufacturer, production date, test results).

3. Data on welding gas pipeline joints

Note. The diagram must be drawn up so that the location of each joint can be found from the surface of the earth. To do this, references must be made to permanent ground objects (buildings, structures) of both the gas pipeline itself and its characteristic points (ends, turning points, etc.); The distances between joints, as well as between joints and characteristic points, including intersecting communications, must be marked. Strict adherence to the scale of the diagram is not necessary.

4. Checking the depth of the gas pipeline, slopes, beds, installation of cases, wells, carpets (compiled for underground gas pipelines and gas inlets)

It was established that the depth of the gas pipeline from the surface of the earth to the top of the pipe along its entire length, the slopes of the gas pipeline, the bed under the pipes, as well as the installation of cases, wells, and carpets correspond to the design.

(position, signature, initials, surname)

5. Quality checks protective coating underground gas pipeline (gas inlet)

1.* Before laying in the trench, the protective coating of pipes and joints was checked for the absence of mechanical damage and cracks - by external inspection, thickness - by measurement according to GOST 9.602-89 mm: adhesion to steel according to GOST 9.602-89; continuity - flaw detector

2.*Joints isolated in a trench are checked by external inspection for the absence of mechanical damage and cracks.

Position 3 should be excluded

4 * Checking for the absence of electrical contact between the metal of the pipe and the ground was carried out after the trench was completely backfilled “___” ______________ 200__ g

Note. *If the trench was backfilled when the soil froze more than 10 cm during Shubin, then the construction and installation organization must carry out an inspection after the soil has thawed, which must be recorded in the acceptance certificate for the completed construction of the gas supply system facility.

When checking the quality of the protective coating, no defects were found

Head of laboratory ___________________________________________________________

(position, signature, initials, surname)

Representative gas industry __________________________________________________

6. Purge of the gas pipeline, testing it for strength and tightness

Position 1 should be excluded.

2 “___” ___________ 200__ before the strength test, the gas pipeline was purged with air.

3 * “___” ___________ 200__ pneumatic (hydraulic) test performed

gas pipeline strength by pressure MPa (kgf/cm2) with exposure for _____ hours.

The gas pipeline passed the strength test.

4. “___” ___________ 200__, a gas pipeline backfilled to design levels with fittings installed on it and branches to objects up to shut-off devices (or the underground part of the gas inlet) was tested for tightness within ____ hours

Before the test, the underground gas pipeline was under air pressure for ____ hours to equalize the air temperature in the gas pipeline with the ground temperature

Pressure measurements were made with a pressure gauge (differential pressure gauge) in accordance with GOST _______, class.

Data from pressure measurements when testing an underground gas pipeline

Date of testing			Pressure measurements, kPa (mm Hg)				Pressure drop, kPa (mm)
month	number	watch	manometric		barometric		permissible	actual
			P(1)	P(2)	B (1)	AT 2)

According to the above pressure measurements, the underground gas pipeline passed the leak test, no leaks or defects were found in places accessible for inspection;

"___"___________ 200__The above-ground gas pipeline (above-ground part of the gas inlet) was tested for tightness by pressure _____ MPa (kgf/cm 2) with exposure for an hour, followed by an external inspection and check of all welded, threaded and flanged connections. No leaks or defects were found. The above-ground gas pipeline (above-ground part of the gas inlet) passed the leak test.

Work producer ______________________________________________________________

(position, signature, initials, surname)

(position, signature, initials, surname)

7. Conclusion

The gas pipeline (gas inlet) was built in accordance with the project developed by

________________________________________________________________________________

(name of design organization

________________________________________________________________________________

and project release date)

taking into account the agreed changes made to working drawings No. ___ - ___________

Construction has started"___"___________ 200__

Construction completed"___"___________ 200__

Chief Engineer SSMU __________________________________________________________

(position, signature, initials, surname)

Representative of the gas industry ___________________________________________________

(position, signature, initials, surname)

1. Register of executive documentation

2. General work log and special works:

• Cable management log
• Incoming inspection log
• Author's supervision journal (to be filled out by the responsible person from the design organization)

3.

• Executive diagram of the system fire alarm

4. Acts, acceptance and testing protocols, other documents:

• The act of transferring equipment, products and materials for installation
• Building inspection report (name of the object, number of buildings, premises, number of storeys, type of structure, indication of the type of alarm, type of detectors, control panels, sirens and their installation locations for each building (room), instructions for blocking building structures(name of material, size, number of protected structures, type and number of detectors), indication of the length, types of laying of wires and their protection, indication of power supply, estimated cost and planned installation time, signatures of representatives of the customer, security department, state fire inspection authorities ).
• Certificate of readiness of buildings and structures for work
• Certificate of completion of work
• Protocol for measuring the insulation resistance of electrical wiring
• List of installed control panels (SPU) and detectors
• Test report of protective pipelines with separation seals for tightness (drawn up during installation technical means alarms in hazardous areas)
• Statement technical documentation presented upon delivery and acceptance
• List of installed equipment
• List of changes and deviations from the project
• Insulation resistance measurement protocol
• Certificate of technical readiness of the system

5.

• Laying fire alarm networks (on walls, ceilings, floors, sewers, ground)

6. , fire certificates, sanitary and hygienic conclusions for Construction Materials, products and designs. For all applicants construction site building materials, products, structures and equipment, an incoming inspection report must be drawn up and subsequently signed by the responsible persons

7. A set of working drawings for the construction of the facility presented for acceptance, developed by design organizations, with inscriptions on the compliance of the work performed in kind with these drawings or changes made to them made by the persons responsible for the construction and installation work, agreed with the authors of the project.

8. Documents on approval of deviations from the project during construction

The set of acceptance documentation includes a package of permits:

• Installation organization information sheet
• SRO of the installation organization
• Orders for responsible representatives
• Personnel certificates (welders, electrical personnel, etc.)
• Detailed documentation with the Customer’s stamp “In production of work”
• Project of work production ( title page and familiarization sheet)

*The presented composition of the executive documentation is approximate. Please check with the customer for the exact composition of the as-built documentation.

As-built documentation for fire alarms

IN executive documentation for fire alarms contains a set of working drawings and text documents that facilitate the process of operating the building. It must be provided to the inspectors of the Ministry of Emergency Situations conducting the inspection upon request. Having a fire alarm ID helps you avoid problems with the law.
If the as-built documentation for the APS (OPS) and SOUE is lost or not completed by those who carried out the installation, it must be restored.

Stages of restoration of as-built documentation for fire alarms

To begin work on restoring documentation, building plans from the Bureau of Technical Inventory (BTI plans) are required.

BTI plans look something like this:

Plan redrawn for AutoCad to editable format.dwg

Then the automatic fire alarm system is examined. The presence, location, number and type of sensors, devices and modules of which it consists are checked. The obtained data is plotted on measurement drawings.

Photograph control and control devices,

manual and smoke detectors.

The distribution of fire alarm loops throughout the premises is also important.

After the examination, you can begin drawing the as-built documentation for the fire alarm system.

This stage is similar to design, but with a ready-made arrangement that needs to be transferred to the cable route plan.

An example of an executive layout plan for the placement of fire detectors:

Cost of as-built documentation for APS

To determine the cost, a technical passport of the building or BTI plans are required. The calculation is made taking into account the area of ​​the object, but The cost of developing as-built documentation depends on many factors. Each order is individual.

Send the initial data to the email indicated in the Contacts section. We are in as soon as possible We will make a calculation and send it to you.

The standard period for completing ID APS up to 2000 m2 is 7-10 days. The price includes a site survey, creation of documentation and delivery of two paper copies of the project to the client.

There are two ways to reduce the cost of performing work (relevant for service organizations and companies with design skills):

1. Purchase an example project in editable format (dwg, doc). You can link this project to your plans yourself. This option is only possible if there is a project SRO. Documentation contents: title, cover, explanatory note, Total information, symbols, structural scheme, plans for the location of equipment and cable routes, connection diagrams, cable log, specification.
2. Pay for remote support for your project. You collect all the initial data (plans, location, types of detectors and devices), we carry out standard control of the project.

Call the phone number listed on the website, and our manager will select the best option for you, which will help you save a lot.

As-built documentation for fire alarms

IN executive documentation for fire alarms contains a set of working drawings and text documents that facilitate the process of operating the building. It must be provided to the inspectors of the Ministry of Emergency Situations conducting the inspection upon request. Having a fire alarm ID helps you avoid problems with the law.
If the as-built documentation for the APS (OPS) and SOUE is lost or not completed by those who carried out the installation, it must be restored.

Stages of restoration of as-built documentation for fire alarms

To begin work on restoring documentation, building plans from the Bureau of Technical Inventory (BTI plans) are required.

BTI plans look something like this:

Plan redrawn for AutoCad to editable format.dwg

Then the automatic fire alarm system is examined. The presence, location, number and type of sensors, devices and modules of which it consists are checked. The obtained data is plotted on measurement drawings.

Photograph control and control devices,

manual and smoke detectors.

The distribution of fire alarm loops throughout the premises is also important.

After the examination, you can begin drawing the as-built documentation for the fire alarm system.

This stage is similar to design, but with a ready-made arrangement that needs to be transferred to the cable route plan.

An example of an executive layout plan for the placement of fire detectors:

Cost of as-built documentation for APS

To determine the cost, a technical passport of the building or BTI plans are required. The calculation is made taking into account the area of ​​the object, but The cost of developing as-built documentation depends on many factors. Each order is individual.

Send the initial data to the email indicated in the Contacts section. We will make a calculation as soon as possible and send it to you.

The standard period for completing ID APS up to 2000 m2 is 7-10 days. The price includes a site survey, creation of documentation and delivery of two paper copies of the project to the client.

There are two ways to reduce the cost of performing work (relevant for service organizations and companies with design skills):

1. Purchase an example project in editable format (dwg, doc). You can link this project to your plans yourself. This option is only possible if there is a project SRO. Documentation contents: title, cover, explanatory note, general data, symbols, block diagram, equipment and cable layout plans, connection diagrams, cable log, specification.
2. Pay for remote support for your project. You collect all the initial data (plans, location, types of detectors and devices), we carry out standard control of the project.

Call the phone number listed on the website, and our manager will select the best option for you, which will help you save a lot.