If there are leaks, the product will not be able to function at all or within the allotted period of time. Examples of this are: vacuum technology, refrigeration circulation systems in refrigerators, air conditioning systems in cars, car tires, automobile fuel tanks or fuel tanks, and distillation plants in the chemical or pharmaceutical industry. In many cases, the tightness of mechanisms or systems in the production process is a prerequisite for ensuring the quality of the manufactured products.
Gel Leak Detectors Pfeiffer Vacuum ASM
Leak detectors Pfeiffer Vacuum are used both for mobile leak detection “on site” and for service work all over the world, in various locations. They stand out above all for their high performance combined with their low weight.
These versatile leak detectors are used primarily in stationary applications for locating leaks and monitoring leaks. Thanks to the trolley, they can be moved. Compact helium leak detectors are used in a wide variety of industries, from heavy industry to cleanroom applications.
In the latter case, dry (oil-free) leak detectors are used.
The high performance Pfeiffer Vacuum leak detectors are used where extremely short cycle times are required and a rapid reduction of the helium background is required. From testing industrial components in high-throughput manufacturing to highly sensitive applications in vacuum and medical technology or in research and design.
Portable Leak Detector - ASM 310
Benefits for the client
Lightweight and portable, only 21 kg
Sleek design with retractable handle
Easily transportable
Detachable control panel
Customizable user interface
Intuitive and customizable menu
Small size and footprint
Possibility to work in any position
Large, bright color touch screen
Color graphical interface
Password protection
Built-in SD memory card for recording, downloading data and setting parameters
Sound speaker
Areas of use
Semiconductor industry
Analytics and research Industry
Nuclear and hydroelectric power plants
Technical data
Specifications Test Methods- Vacuum and Sniff Method
The minimum recorded helium flow (vacuum method) - 5 10E-13 Pa m.cub./sec
Minimum detectable flow of Helium (probe method) - 1 · 10E-8 Pa m3 / sec
Working gases - 4He, 3He, H2
Maximum working pressure - 15 mbar
Forevacuum pumping speed - 1.7 cubic meters / hour
Pumping speed for Helium at the inlet flange - 1.1 l / s
Inlet flange - DN 25 ISO-KF
Time to reach operating mode (20 ° C) - <2 min (<3.5 min with auto-calibration)
Reaction time (probe method) - <1 sec
I / O interfaces - Discrete input, Analog output (mantissa), Analog output (exponential)
Dimensions - 350 x 245 x 414mm
Weight - 21 kg
Power Supply - 100-240 VAC current - 50/60 Hz
Maximum power consumption - 300 W
Helium Background Suppression - Automatic / Manual
User interface - Color touch screen
Languages that can be selected - English, French, German, Italian, Spanish, Russian, Japanese, Chinese, Korean
Advantages
-Extreme lightness and ease of operation
-With remote control for comfortable use
-Suitable for finding leaks for a wide range of applications
-Powerful and reliable
-Simple design with easy maintenance
-Ergonomic design
Universal Leak Detector - ASM 340, ASM 340D (dry)
Преимущества для клиента
Самое быстрое в своем классе время тестирования
Высокая скорость откачки форвакуумного насоса
Быстрое время реакции благодаря высокой скорости откачки по гелию
Уникальная способность диагностики утечек начиная со 100 мбар
Впечатляющие результаты в режиме работы по методу щупа, с минимальным регистрируемым потоком 5·10Е-10 Па м3/сек
Небольшая стоимость обслуживания
Встроенная карта памяти SD для записи, загрузки данных и настройки параметров
Съемная цветная панель управления с расширенной эргономикой
Удобный для пользователя и настраиваемый интерфейс
В наличии полный ассортимент интерфейсов I/O и Profibus
Области применения
НИОKР
Авиационная промышленность
Машиностроение
Измерительная техника
Холодильная техника
Кондиционирование воздуха
Полупроводниковая техника
Общие технические характеристики ASM 340 и ASM 340D (сухой)
Входной фланец DN 25 ISO KF
Методы испытаний - Вакуумный метод и метод щупа
Рабочие газы - 4He, 3He, H2
Минимальный регистрируемый поток Гелия (метод щупа) - 5 · 10Е-10 Па м3/сек
Минимальный регистрируемый поток Гелия (вакуумный метод) - < 5 · 10Е-13 Па м3/сек
Скорость откачки по Гелию - 2,5 л/сек
Максимальное рабочее давление - 25 мбар
Время выхода на рабочий режим (20°C) без калибровки - ~ 3 мин
I/O интерфейсы - Дискретные и аналоговые I/O, реле
Языки, которые могут быть выбраны - Английский, французский, немецкий, итальянский, испанский, русский, японский, китайский, корейский
Размеры - 393 x 547 x 375 мм
Высокопроизводительный и мобильный течеискатель – ASM 380
Benefits for the client
Fastest test time in its class
High pumping speed of the foreline pump
Fast response time due to high pumping speed for helium
Unique ability to diagnose leaks from 100 mbar
Impressive results in probe mode, with a minimum detectable flow of 5 10E-10 Pa m3 / s
Low maintenance cost
Built-in SD memory card for recording, downloading data and setting parameters
Detachable color control panel with advanced ergonomics
User friendly and customizable interface
Full range of I / O and
Profibus interfaces available
Areas of use
R&D Aviation industry
Mechanical engineering
Measuring technology
Refrigeration technology
Air conditioning
Semiconductor technology
General technical data for ASM 340 and ASM 340D (dry)
Inlet flange DN 25 ISO KF
Test Methods - Vacuum and Sniff Method
Working gases - 4He, 3He, H2
Minimum detectable flow of Helium (probe method) - 5 10E-10 Pa m3 / s
Minimum detectable flow of Helium (vacuum method) - <5 10E-13 Pa m3 / s
Pumping speed for Helium - 2.5 l / s
Maximum working pressure - 25 mbar
Time to reach operating mode (20 ° C) without calibration - ~ 3 min
I / O interfaces - Discrete and analog I / O, relays
Languages that can be selected - English, French, German, Italian, Spanish, Russian, Japanese, Chinese, Korean
Dimensions - 393 x 547 x 375mm
weight-110kg
Высокопроизводительный консольный течеискатель – ASM 192 T, ASM 192 TD+
Benefits for the client
Ideal for industrial use
Robust and reliable even in harsh environments
Fast response times due to very high pumping rates for Helium
Various languages and operating voltages are available for global use.
Graphic color touch screen
Test chambers can be installed on the inlet flange
Areas of use
Laser technology
Aerospace industry
Simulated space
Electronics
Nuclear technology
Medical equipment
Accelerators
Semiconductor technology
R&D
Coating Vacuum technology, large chambers
Specifications
ASM 192 T Inlet flange - DN 40 ISO-KF
Test Methods - Vacuum and Sniff Method
Working gases - 4He
Minimum detectable helium flow (probe method) - 1 10-8 Pa m3 / s
The minimum recorded flow of Helium (vacuum method) - 5 10-13 Pa m3 / s
Pumping speed for Helium - 4.4 l / s
Noise level - 54 dB (A)
Power supply - 200-240 V,
Power consumption max. - 1300 W
Maximum working pressure - 6 mbar
Foreline pumping speed - 20 m3 / hour
Time to reach operating mode (20 ° C) without calibration - 3 min
Time to reach operating mode (20 ° C) with calibration - 4.5 min
Specifications
ASM 192 T2D + Inlet flange - DN 40 ISO-KF
Test Methods - Vacuum and Sniff Method
Working gases - 4He
Minimum detectable flow of Helium (probe method) - 1 10E-8 Pa m3 / s
The minimum recorded flow of Helium (vacuum method) - 5 10E-13 Pa m3 / s
Pumping speed for Helium - 20 l / s
Noise level - 66 dB (A)
Power supply - 200-240 V,
Power consumption max. - 1000 W
Maximum working pressure - 30 mbar
Foreline pumping speed - 25 m3 / hour
Time to reach operating mode (20 ° C) without calibration - 3.5 min
Time to reach operating mode (20 ° C) with calibration - 5 min
- Stock: In Stock
- Model: Гелиевые течеискатели ASM