Joke Collection Website - Bulletin headlines - Fire control project completion acceptance report _ project completion acceptance report fire control model

Fire control project completion acceptance report _ project completion acceptance report fire control model

Completion acceptance and completion filing are important procedures in the completion and delivery stage of construction projects. Completion acceptance is the last procedure in the whole process of construction management of construction projects, and it is also an important link to comprehensively assess the construction work, check whether the design and engineering quality meet the requirements, and examine whether the investment is reasonable. At the same time, this link is of far-reaching significance for promoting the timely production of construction projects, giving play to the investment effect and summing up construction experience. This paper is the completion acceptance report of fire fighting project compiled by me, for reference only.

Fire engineering completion acceptance report 1

The XX project undertaken by our company was funded by XX Development Co., Ltd., designed by XX Design Institute, followed by quality supervision by XX Construction Engineering Quality Supervision Station, and entrusted XX Fire Engineering Supervision Co., Ltd. to undertake on-site supervision. XX fire control facilities testing unit completed the electrical and fire control facilities testing of this project on June 24th, 2007, and confirmed that the test results were qualified.

Since the project started, with the strong support of superior leaders, quality monitoring stations, construction units, design units, supervision units and relevant departments, the project passed the five-party pre-acceptance work on XX, XX, XX, and completed the quality rectification and finishing work of related issues. Now the fire fighting project has met the completion acceptance conditions, and now the specific situation of the project is reported as follows:

I. Overview of the Project:

1, intersection of XX and Guangchang Road, bordering Guangchang Road in the south, Peng Fei Lane in the north, Xinhe Street in the west and residential area in the east. Belonging to residential areas, it is a key unit of fire control. The building of this project consists of a basement, eighteen to twenty-two floors above ground and two independent annex buildings. The total building area is 40 192m2, and the underground part is 5252.34m2 The total building heights are 64.3m, 70.30m, 80.90m and 9.30m respectively. The first floor is 4.50m high, the second floor is 4.80m high and the third floor is 4.50m high. The height of the first basement is: 5.60m for the motor vehicle garage, 4.80m for the equipment room, and 3.80m for the non-motor vehicle garage ... The underground room mainly has two fire exits, a fire-fighting pool with a design capacity of 400m3, a special shower pool with a design capacity of 18m3, a fire-fighting smoke exhaust fan room, a self-contained power generation room and other equipment rooms. There are two fire stairs on the second and third floors of the mall. The roof is equipped with elevator machine room, positive pressure blower room and fire pool, with a design capacity of 18m3.

3. The main structure is a fully cast-in-place reinforced concrete frame-frame supported shear wall structure, and the basement is connected. The basement is equipped with a garage, not a motor vehicle garage. Public places such as shopping malls and office areas are set on the first and second floors, the third floor is set as an overhead floor (technical floor), and the outdoor part is set as a leisure place such as a roof garden; Four floors and above are residential.

Second, the engineering function:

1. The fire alarm system of this project adopts the control system of fire control center, which consists of automatic alarm system, floor evacuation indication system, fire hydrant system, automatic sprinkler system, fire smoke exhaust system, positive pressure air supply system, fire broadcast and fire telephone system. The fire control center is located on the first floor of Building D-/KLOC-0, and is controlled by the centralized alarm controller.

2. The linkage system of this project is centralized control, and the linkage console is located in the fire control center on the first floor. The linkage function mainly includes: after the fire alarm, stop the smoke exhaust fan, open the smoke exhaust port and positive pressure air supply port, start the smoke exhaust fan and positive pressure blower, turn on the alarm device after confirming the fire, turn on the emergency broadcast after 10~ 15 seconds, organize evacuation, and start the fire pump and spray pump at the same time, and the elevator will be forced to land on the ground floor.

3. Linkage logic and manual function of fire control room: a. Manual button action, fire fighting equipment will be linked immediately. B, fire hydrant button action, immediately start the fire pump and spray pump. C, smoke, temperature, water flow indicator alarm, should confirm the rear can linkage fire fighting equipment. D, fire emergency broadcast horn, smoke exhaust and air conditioning should be connected to the fire floor and the upper and lower floors. E, the fire control room should be inspired by the start and stop of all fire fighting equipment, and can manually control the start and stop of all fire fighting equipment. The fire broadcast in the fire control room should be turned on manually or automatically, and equipped with microphone and recording tape. G, the fire center should be equipped with a dedicated telephone that can directly connect to the fire brigade, and the fire pump room, elevator room and fan room should be equipped with fire telephones.

Third, the project construction process:

Our company has established the quality responsibility system for managers of all departments and levels, defined their respective quality responsibilities, and established a perfect project self-inspection system, with clear division of labor and responsibility to people. Strictly control the construction procedure of the whole project. Before each subdivisional work starts, strict technical disclosure shall be carried out, and inspection and acceptance shall be carried out according to the requirements of technical disclosure and inspection and evaluation standards, so as to track and synchronize. After the self-inspection of each technical review project is qualified, it shall be submitted to the quality supervision station, the construction unit and the supervision unit for parallel acceptance. After meeting the design requirements and acceptance specifications, the next working procedure shall be constructed. All materials used on the site are required to be qualified, and unqualified and disorderly products are rejected (see the attached table 1 for the main manufacturers and purchase quantities of fire-fighting materials).

During the construction process, through the unremitting efforts of our company and the project department and the hard work of all employees, our construction party completed all the work according to the design requirements, the provisions of the acceptance specification and the construction contents agreed in the contract. All equipment has been debugged and operated normally, and all alarm systems have passed the inspection of the inspection company.

Fourth, the remaining problems in the construction:

1. Because the investment time of this project is relatively early, the construction is carried out according to the original design code, which has some shortcomings compared with the requirements of the current fire acceptance code.

2. Because the power supply bureau is responsible for the equipment installation in the distribution room, it has not been completely completed. At present, the power supply used by each equipment is temporary on site, and the load cannot run for too long at the same time.

3. Due to objective factors such as tight construction time, there are some minor problems in the process of functional debugging of each system.

Fire control project completion acceptance report II

Guangzhou Public Security Fire Bureau:

* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * On June 5438+February 2, 2007, the project passed the pre-acceptance work of five main bodies, and completed the quality rectification and finishing work of related problems, and now it has the conditions for completion acceptance. The specific situation of this project is reported as follows:

I. General situation of the project (building category, general layout and layout):

1, * * * * * * and Guangchang Road are adjacent to Guangchang Road in the south, Peng Fei Lane in the north, Xinhe Street in the west and residential areas in the east. Belonging to residential areas, it is a key unit of fire control. The building of this project consists of a basement, eighteen to twenty-two floors above ground and two independent annex buildings. The total building area is 40 192m2, and the underground part is 5252.34m2 The total building heights are 64.3m, 70.30m, 80.90m and 9.30m respectively. The first floor is 4.50m high, the second floor is 4.80m high and the third floor is 4.50m high. The height of the first basement is: 5.60m for the motor vehicle garage, 4.80m for the equipment room, and 3.80m for the non-motor vehicle garage ... The underground room mainly has two fire exits, a fire-fighting pool with a design capacity of 400m3, a special shower pool with a design capacity of 18m3, a fire-fighting smoke exhaust fan room, a self-contained power generation room and other equipment rooms. There are two fire stairs on the second and third floors of the mall. The roof is equipped with elevator machine room, positive pressure blower room and fire pool, with a design capacity of 18m3.

2. Building category and fire resistance rating: Class I high-rise buildings and basements have a fire resistance rating of Class I, while the commercial department on the north side is divided into Class II multi-storey buildings with a fire resistance rating of Class II. 3. The main structure is a fully cast-in-place reinforced concrete frame-frame supported shear wall structure, and the basement is connected. The basement is equipped with a garage, not a motor vehicle garage.

Public places such as shopping malls and office areas are set on the first and second floors, the third floor is set as an overhead floor (technical floor), and the outdoor part is set as a leisure place such as a roof garden; Four floors and above are residential.

Second, the building interior decoration:

Three, safe evacuation and fire elevator:

Four, fire water, fire power:

Five, fire engineering facilities:

1, the fire alarm system of this project adopts the control system of fire control center and consists of automatic alarm system.

System, floor evacuation indication system, fire hydrant system, automatic sprinkler system, fire smoke exhaust system, positive pressure air supply system, fire broadcast and fire telephone system. The fire control center is located on the first floor of Building D-/KLOC-0, and is controlled by the centralized alarm controller.

2. The linkage system of this project is centralized control, and the linkage console is located on the first floor of fire protection.

Internally, the linkage functions mainly include: stopping the smoke exhaust fan after fire alarm, opening the smoke exhaust port and positive pressure air supply port, starting the smoke exhaust fan and positive pressure blower, turning on the alarm device after confirming the fire, turning on the emergency broadcast after 10~ 15 seconds, organizing evacuation, and simultaneously starting the fire pump and spray pump, so that the elevator can be forced to land on the ground floor. 3. Linkage logic and manual function of fire control room: a. Manual button action, fire fighting equipment will be linked immediately. B, fire hydrant button action, immediately start the fire pump and spray pump. C, smoke, temperature, water flow indicator alarm, should confirm the rear can linkage fire fighting equipment. D, fire emergency broadcast horn, smoke exhaust and air conditioning should be connected to the fire floor and the upper and lower floors. E, the fire control room should be inspired by the start and stop of all fire fighting equipment, and can manually control the start and stop of all fire fighting equipment. The fire broadcast in the fire control room should be turned on manually or automatically, and equipped with microphone and recording tape. G, the fire center should be equipped with a dedicated telephone that can directly connect to the fire brigade, and the fire pump room, elevator room and fan room should be equipped with fire telephones.

Six, engineering construction process:

Seven. There are no problems in the project.

Name of the construction unit (seal)

Fire engineering completion acceptance report 3

I. Overview of the Project

Project Name: Nuclear Power Project

Project location: .....................

Owner: CNNC Company.

Design unit: Research Institute of Science.

Supervision unit: ...........

General contractor: China Nuclear Industry Co., Ltd.

Fire fighting construction unit: Co., Ltd.

1, this project is located in .........................

2. Project completion scope: # building to # building residence.

3. Building category and fire resistance rating: Buildings # to # are 18-storey second-class high-rise buildings, and buildings # and # are 24-storey first-class high-rise buildings, and their fire resistance rating is designed as Class I. ..

4. Automatic fire alarm system (factory): The fire control room of this project is located on the first floor of Building #. Equipped with automatic fire alarm host, linkage control cabinet, special intercom host for fire alarm, fire monitor host control cabinet, etc. The details are as follows: (1) intelligent smoke detectors are set up in the building parts such as lobby, elevator front room, electric well, electric meter room and shops; Each floor is provided with a manual alarm button, an acousto-optic buzzer and a fire hydrant remote pump start button; Set the floor number light on the evacuation stairs; The front room of the building is provided with a positive pressure air supply valve control function, and the front room pressurization fan is started; The elevator machine room is equipped with the function of elevator going to the first floor and receiving its feedback; The non-fire power cut-off function is set in the electricity meter room on the 1 floor; The electric well of the relevant layer is equipped with emergency lighting start-up function; The fire control room is equipped with the functions of controlling the start and stop of indoor and outdoor fire hydrants and automatic sprinkler systems, as well as the control and status display of other linkage equipment.

5. Fire accident broadcasting system: the fire control room is equipped with bus broadcasting communication system, fire broadcasting host, bus broadcasting partition control panel and CD player. The broadcast host has built-in fire alarm sound, and the ceiling fire accident broadcast (3W) is set in the lobby and elevator front room of # building 1 floor. After the fire is confirmed, the manual control and broadcasting module is automatically connected to the broadcasting system at the scene of the fire and continuously sends out alarm and evacuation instructions.

6. Fire telephone system: the fire control room is equipped with a bus-type fire telephone host, a fire telephone jack is installed at the manual alarm button in the front room of the elevator, a fire intercom telephone extension is installed in the elevator machine room of the building, and a dedicated external fire direct telephone plane is installed in the fire control room.

7. Indoor fire hydrant system: the basement water pump room is equipped with indoor fire hydrant pump.

Xbd11/40-150x20x6/1(q = 40l/s, h = 1 10m, p = 75kw), one for use and one for standby. Water consumption of indoor fire hydrant: 40l/. . Fire hydrant water supply network is divided into two ways of water supply. After decompression, a ring network is formed in the basement to supply residential fire hydrants. Without decompression, a ring network is directly formed in the basement to supply residential fire hydrants in 6#~8# buildings. Double-bolt fire box (A) is used in buildings and houses, and single-bolt fire box (A) is used in shops. Fire hydrants are SN65 fire hydrants, 25m rubber lining, hoses and Ф19 water guns. ..... Residential building 12 floors below the fire hydrant adopts pressure-reducing and pressure-stabilizing fire hydrant. ..... Building 18 floors below the fire hydrant adopts pressure-reducing and pressure-stabilizing fire hydrant to ensure that the outlet pressure of fire hydrant is not greater than 0.49MPa, and other floors adopt ordinary fire hydrants. The test bolt is installed on the roof. The fire water tank on the roof of the house is connected with the fire hydrant ring pipe in Building 6. There are three sets of DN 150 ground water pump adapters (combined) in the east and northwest of outdoor buildings, which are connected with the fire ring pipe of the community. In case of fire, press the pump start button at any fire hydrant to start the fire hydrant pump. The fire control room is equipped with manual and automatic controls to start and stop the fire hydrant pump and display its working and fault status. Displays the location of the fire hydrant. The basement water pump room can also start the indoor fire pump locally.

8. Automatic sprinkler system: the basement water pump room is equipped with a sprinkler pump.

Xbd 9.1/40-150x20x4/1(q = 40l/s, h = 9 1m, p = 55kw), one for use and one for standby, without partition. 1, Building 2 and automatic sprinkler system. According to the first-class design of moderate risk, the water spraying intensity is 6L/s, the protection area is 160m2, and the fire duration is 1 hour. The design flow of automatic sprinkler system is 40L/s, the fire duration is 1h, and the * * * meter is 144m? . The fire water tank on the roof of the house is connected with the automatic sprinkler ring pipe in front of the wet alarm valve. There are three sets of DN 150 ground water pump adapters (combined) in the west and east of the outdoor building, which are connected with the spray ring pipe of the community. In case of fire, the spray system automatically starts the wet alarm valve, pressure switch and spray pump according to the pipeline pressure. The fire control room is equipped with manual and automatic control of spray pump, and displays its working and fault status; Show the working status of water flow indicator and alarm valve. The basement water pump room can also start the spray pump locally.

9. Water consumption of outdoor fire hydrant: the basement water pump room is equipped with outdoor fire hydrant pump.

Xbd 3.6/30-100x20x2 (q = 30L/s, h = 36m, p = 18.5kW), outdoor fire hydrant water consumption: 30l/s, fire duration 2h, * * 2 16 m? . DN 150 pipeline is led from the municipal water supply network to the basement fire pool, which is pressurized by the basement outdoor fire pump and then supplied to the outdoor fire protection network. Set a group of outdoor ground hydrants (SS 100/65- 1.0) on the outdoor fire ring network, with the spacing not greater than 120m. In case of fire, press the pump start button at any outdoor fire hydrant to start the fire hydrant pump. The fire control room is equipped with manual and automatic controls to start and stop the outdoor fire hydrant pump, and display its working and fault status and the location of the fire hydrant. The basement water pump room can also start the outdoor fire pump on the spot.

10. Fire water source: there is a fire pool with a volume of 648 cubic meters in the basement pump room. There is a 18m3 fire water tank in the roof water tank room of 6# residential building. Outdoor ground fire hydrants 16 sets.

1 1. Fire extinguishers: Fire extinguishers in buildings and houses are configured according to light danger level, offices and clubs are configured according to serious danger level, and underground garages are configured according to medium danger level. Portable ammonium phosphate dry powder (MF/ABC5) fire extinguishers are installed on each floor of ordinary houses above the ground.

Second, building the foundation

1, construction contract of construction project

2, engineering design and construction drawing and change (modification) notice

3. Unified standard for construction quality acceptance of building engineering (GB50300-200 1)

4. Code for Construction and Acceptance of Automatic Fire Alarm System (GB50 166-2007)

5. Code for Construction and Acceptance of Automatic Sprinkler Fire Extinguishing System (GB 5026 1-2005)

6. Code for Acceptance of Construction Quality of Building Water Supply, Drainage and Heating Engineering (GB 50242-2002)

7. Code for Acceptance of Construction Quality of Ventilation and Air Conditioning Engineering (GB 50243-2002)

8. Code for Construction and Acceptance of Gas Fire Extinguishing System GB50263-2007

9, related professional construction technology and national standard atlas

10, Fujian province construction engineering quality acceptance related laws and regulations, related documents, etc.

Three. Engineering construction (1) Quality control in the preparation stage of construction

1. Carefully study the contract and other documents to determine the quality control objectives and service quality requirements.

2. Do a good job of drawing self-examination, and find out the hidden dangers that exist in drawing design and affect future construction, acceptance and use. And communicate with the construction unit, supervision unit and design institute.

(2) Quality control in the construction process

Mainly from the five elements of human, machine, material, law and environment, the fire control project is managed through a perfect quality management system.

1 First of all, all participants in the project department are required to be familiar with and competent in their jobs, be serious and responsible, and have high ideological and professional qualities. Secondly, select the construction team and construction personnel with fire engineering construction experience to carry out fire engineering construction technology and safety production knowledge training. It is best to make technical disclosure to the construction team before each subdivisional work starts, so that they can understand the design intent and implement relevant construction specifications, procedures, process standards and quality evaluation standards.

2. Ensure the normal use of construction machinery and testing instruments, including construction machinery, measuring instruments and testing instruments. Commonly used construction machinery, such as cutting machine, toothless saw, threading machine, etc., should be maintained regularly and kept in good condition. Equipped with qualified instruments to test the resistance of laid lines and the performance of fire detectors.

3. All materials and equipment used in fire fighting engineering must meet the requirements of design and contract documents, and be selected from reputable and high-quality manufacturers, with material certificates, test reports and certificates. Fire-fighting special products shall be online products of the Fire-fighting Product Information Network of the Ministry of Public Security, and shall be accepted in strict accordance with the material acceptance procedures to prevent unqualified materials from entering the construction site. In the process of construction, materials should be kept strictly to prevent damaged and deteriorated materials from being used in the project.

4. Establish a perfect construction quality management system and construction quality inspection system, concealed engineering inspection and acceptance system, construction technology review system and quality responsibility system, and effectively implement them in implementation. Quality problems (accidents) in engineering construction should be handled in time according to procedures, leaving no hidden dangers, with clear quality responsibilities and on-site quality management under control. Do a good job in the management of relevant documents and process construction records of fire protection engineering projects, ensure the effectiveness of drawings and specifications used in construction, and collect and keep relevant information in the whole process of fire protection engineering construction. 5, create a good construction environment, in the construction organization design, the preparation of operability to ensure safe production and civilized construction of technical guarantee measures, and strictly enforced. And with the construction unit, supervision unit, general contractor and other cross units to create a clean, orderly, safe and coordinated construction environment.

Four, fire division engineering quality acceptance record:

(1) Intelligent Building:

1. Sub-division project: ** 14 sub-division, which meets the specifications and design requirements through investigation.

2. Quality control data: ** 84 items, and 84 items meet the requirements after verification.

3. Safety and function inspection (testing) report: * * 28 items were randomly selected, and 28 items met the requirements.

4. Perceived quality: * * Random sampling 14, 14 meets the requirements.

The automatic fire alarm and fire linkage system division project is qualified.

(2) Water supply and drainage and heating engineering:

1. Sub-division project: ** 14 sub-division, which meets the specifications and design requirements through investigation.

2. Quality control data: ** 70 items, and 70 items meet the requirements after verification.

3. Safety and function inspection (testing) report: * * 87 items were randomly selected and 87 items met the requirements.

4. Perceived quality: * * 28 items were randomly selected, and 28 items met the requirements.

Indoor water supply fire hydrant and spray division project are evaluated as qualified.

(3) Ventilation engineering:

1. Sub-division project: ** 14 sub-division, which meets the specifications and design requirements through investigation.

2. Quality control data: ** 42 items, and 42 items meet the requirements after verification.

3. Safety and function inspection (testing) report: * * 42 items were randomly selected and 42 items met the requirements.

4. Perceived quality: * * 14 items are randomly selected, which meets the requirements.

Ventilation, smoke control and extraction are assessed as qualified.

Verb (abbreviation of verb) The project quality acceptance is over, and all equipment and systems are running normally after debugging. Therefore, the project completion quality evaluation is qualified.

Project Manager: Baochuan

Technical director:

Compilation date:

4 copies of fire control project completion acceptance report.

Fire Brigade of High-tech Zone:

The fire station project in the high-tech zone undertaken by our unit was undertaken by the Second Engineering Co., Ltd. of China Communications No.1 Navigation Bureau, designed by Qingdao Ocean Architecture Design Institute Co., Ltd., followed by the quality supervision station in the high-tech zone, and entrusted Qingdao Yongda Construction Supervision Co., Ltd. to undertake on-site supervision. On February 5, 20xx, the electrical and fire-fighting facilities of the fire-fighting project were tested, and the test results were confirmed to be qualified. On February 3, 20xx 65438+, the project passed the pre-acceptance work of five subjects, completed the quality rectification and closing of related problems, and now has the conditions for completion acceptance.