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CA (FR)

42Sécurité et mises en garde

Fonctionnement

Ce four a été soigneusement conçu pour fonctionner en toute sécurité pendant les procédures de cuisson normales. Ne pas oublier les directives suivantes lors de l’utilisation du four :

AVERTISSEMENT !

Risque de choc électrique

Éteindre le four au niveau du mur avant de remplacer des fusibles ou la lampe du four.

Ne pas respecter cette consigne risque de provoquer un choc électrique voire la mort.

AVERTISSEMENT !

Risque de surface très chaude

Les pièces accessibles peuvent chauffer pendant l’utilisation.

Pour éviter toute brûlure et toute échaudure, tenir les enfants à distance.

Utiliser des gants isolants ou toute autre protection lors de la manipulation de surfaces très chaudes telles que les grilles de four ou les plats.

Faire preuve de prudence en ouvrant la porte du four.

Laisser l’air chaud ou la vapeur s’échapper avant de retirer ou de replacer les aliments.

Ne pas toucher les éléments chauffants ni les surfaces intérieures du four. Les éléments de chauffage risquent d’être très chauds même s’ils sont de couleur foncée. Les surfaces intérieures d’un four chauffent suffisamment pour provoquer des brûlures. Pendant et après utilisation, ne pas toucher ni laisser les vêtements ou toute autre matière inflammable entrer en contact avec les éléments chauffants ou les surfaces intérieure du four tant qu’ils ne sont pas refroidis. Les autres surfaces de l’appareil risquent de chauffer suffisamment pour provoquer des brûlures – notamment, l’évent du four, la surface près de l’évent du four, ainsi que la porte et le hublot du four.

Le non-respect de cette consigne pourrait provoquer des brûlures et des échaudures.

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DCS WOUD230, WOU130, WOSU30, WODU30 manual 42 Sécurité et mises en garde, Fonctionnement
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WODU30, WOSU30, WOU130, WOUD230 specifications

DCS WOUD230 and WOU130 are advanced air quality monitoring devices designed to provide real-time data on environmental conditions. These systems represent the latest in monitoring technology, catering to a variety of applications, from industrial settings to urban environments.

The DCS WOUD230 is equipped with a high-precision sensor suite that measures a range of pollutants, including particulate matter (PM2.5 and PM10), nitrogen dioxide (NO2), sulfur dioxide (SO2), and ozone (O3). Its ability to detect these pollutants allows for comprehensive air quality assessments, making it an excellent choice for regulatory compliance and environmental research.

On the other hand, the DCS WOU130 is designed with energy efficiency in mind. It utilizes low-power technologies that ensure continuous operation without excessive energy consumption. This makes it suitable for deployment in remote locations where power supply may be limited. Both devices feature ruggedized designs, making them highly durable and capable of withstanding harsh environmental conditions.

One of the standout features of both the WOUD230 and WOU130 is their connectivity options. They are equipped with Wi-Fi and cellular communication capabilities, enabling seamless data transfer to cloud-based platforms. This allows users to access real-time data from anywhere in the world through a user-friendly interface. Additionally, both models can be integrated with existing environmental monitoring systems, providing flexibility and scalability.

Another key characteristic of these devices is their advanced data analytics capabilities. They come with built-in algorithms that not only collect data but analyze it to identify trends and patterns in air quality over time. This functionality is essential for researchers and policymakers who need to make informed decisions based on reliable data.

Moreover, the WOUD230 and WOU130 include alert systems that notify users of sudden changes in air quality, facilitating timely responses to potential hazards. This feature is particularly important in urban areas where pollution levels can fluctuate rapidly due to traffic, construction, or weather conditions.

In conclusion, the DCS WOUD230 and WOU130 air quality monitors are powerful tools equipped with cutting-edge technologies that provide reliable and actionable environmental data. Their combination of precision, connectivity, and durability makes them indispensable for anyone looking to monitor air quality effectively. Whether for industrial compliance, scientific research, or public health awareness, these devices play a critical role in understanding and improving our environment.
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