ISO 17775 Aircraft Ground-service connections Potable water, toilet-flush water and toilet drain - First Edition
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- 13
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- 13.060
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- 13.060.20
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- SNV SN EN 16297-1 Pumps - Rotodynamic pumps - Glandless circulators - Part 1: General requirements and procedures for testing and calculation of energy efficiency index (EEI)
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 16297-2 Pumps - Rotodynamic pumps - Glandless circulators - Part 2: Calculation of energy efficiency index (EEI) for standalone circulators
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- SNV SN EN 809+A1 Pumps and pump units for liquids - Common safety requirements
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- CEN EN ISO 13850 Safety of machinery - Emergency stop - Principles for design
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- DIN EN 12312-2 Aircraft ground support equipment - Specific requirements - Part 2: Catering vehicles
- CEN EN 1915-3 Aircraft ground support equipment - General requirements - Part 3: Vibration measurement methods and reduction - Incorporates Amendment A1: 2009
- BSI BS ISO 6966-1 Aircraft ground equipment Basic requirements Part 1: General design requirements
- ISO 16004 Aircraft ground equipment Passenger boarding bridge or transfer vehicle Requirements for interface with aircraft doors - First Edition
- BSI BS ISO 10842 Aircraft Ground service connections Locations and types
- BSI BS 6920-3 Suitability of Non-Metallic Products for Use in Contact with Water Intended for Human Consumption with Regard to Their Effect on the Quality of the Water - Part 3: High Temperature Tests
- Картотека зарубежных и международных стандартов
International Organization for Standardization
Aircraft Ground-service connections Potable water, toilet-flush water and toilet drain - First Edition
N 17775
Annotation
This International Standard specifies the detail dimensions of the male connector interfaces, fitted to an aircraft, used for servicing of the potable water systems, the toilet-flush water systems, and the toilet drain systems currently in common use. This International Standard is applicable to all commercial aircraft with water and toilet systems and is recommended for military and private aircraft that use water and toilet systems.
This International Standard does not include requirements for the ground half (female) couplings or protective caps, but provides sufficient interface details for such items to be designed. It does not include any specified dimensions for the clearance required around the connector on the aircraft body itself for either any protective caps or ground half couplings, although general recommendations are made.
Автоматический перевод:
Питьевая вода связей Наземной службы самолета, туалетная промывочная вода и спускное отверстие в туалете - Первый Выпуск
Этот Международный эталон определяет размеры детали интерфейсов штекерного разъема, адаптированных к самолету, используемому для обслуживания систем питьевой воды, систем туалетной промывочной воды и в настоящее время широко использующихся систем спускного отверстия в туалете. Этот Международный эталон применим ко всему коммерческому самолету с водой и туалетными системами и рекомендуется для военного воздушного судна и частных самолетов, использующих туалетные системы и вода.
