US 72 Utiliser la table de cuisson

CA (FR)

Utilisation des brûleurs

Halo

(rouge)

1Identifiez le bouton du brûleur que vous souhaitez utiliser.

2Poussez le bouton et tournez-le dans le sens antihoraire jusqu’à la position LITE (allumer).

Le halo devient rouge.

Veillez à arrêter à la position LITE avant d’enclencher le réglage de la flamme.

Vous entendrez un cliquetis. S’il n’y a pas de cliquetis, ramenez le bouton dans le sens horaire jusqu’à la position OFF et consultez la section « Dépistage des pannes » pour obtenir des conseils.

Halo

(rouge)

3Lorsque le brûleur est allumé, tournez le bouton à n’importe quel réglage entre HI

(élevée) et SIM (mijoter).

Le cliquetis devrait s’arrêter dès que le brûleur est allumé.

Si le brûleur ne s’allume pas, et/ou que le cliquetis ne s’arrête pas, ou si les flammes ne sont pas bleues et bien définies, tournez le bouton vers la droite en position OFF et consultez la section « Dépistage des pannes » pour obtenir des conseils.

Halo

(éteint)

4Lorsque la cuisson est terminée, ramenez le bouton de température à la position OFF.

Le bouton se libérera et le halo ainsi que le brûleur s’éteindront.

Si vous employez du gaz GPL, un léger

«pop » ou un éclair au niveau du diffuseur de flamme pourrait se manifester quelques secondes après l’extinction du brûleur. C’est normal dans le cas du GPL.

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DCS RDU/RDV, RGUC/RGVC, RGY/RGV manual US 72 Utiliser la table de cuisson, Utilisation des brûleurs

RDU/RDV, RGY/RGV, RGUC/RGVC specifications

DCS RGUC/RGVC, RGY/RGV, RDU/RDV refer to a range of advanced communication and control systems designed for various applications in automation, data transmission, and remote monitoring. These systems are particularly significant in sectors like manufacturing, energy management, and telecommunications due to their robust features and cutting-edge technologies.

One of the main features of the DCS RGUC/RGVC systems is their modular architecture. This allows for scalability and flexibility, making it easier to adapt the system to diverse operational requirements. Each module is designed to fulfill specific functions, whether it’s data acquisition, processing, or network communication. This modularity not only simplifies maintenance but also enhances the system's overall efficiency.

Another critical aspect of these systems is their use of real-time data processing technologies. By harnessing high-speed processors and advanced algorithms, the RGUC/RGVC family can handle large volumes of data almost instantaneously. This capability is essential for applications that require quick decision-making based on current operational conditions.

The communication protocols employed by the DCS RGUC/RGVC are state-of-the-art, featuring support for industry standards such as Modbus, Profibus, and Ethernet/IP. This ensures compatibility with various field devices and systems, allowing for seamless integration into existing setups. Additionally, advanced security features are integrated to protect sensitive data against unauthorized access.

Energy efficiency is another hallmark of the DCS RGUC/RGVC series. These systems are designed to minimize power consumption without sacrificing performance, which is increasingly important in today’s environmentally conscious landscape. By optimizing energy use, organizations can reduce operational costs and contribute to sustainability goals.

The RGY/RGV and RDU/RDV models are tailored for specific applications within this framework. The RGY/RGV series is often utilized in grid management and energy distribution, while the RDU/RDV models are geared towards data relay and signal processing tasks. Each model is tailored to meet the distinct demands of its respective domain, ensuring reliability and optimal performance.

In conclusion, the DCS RGUC/RGVC, RGY/RGV, and RDU/RDV systems stand out due to their modularity, real-time data processing, compatibility with various communication protocols, energy efficiency, and tailor-made applications. As industries continue to evolve towards more automated and interconnected systems, these advanced communication and control technologies play a vital role in driving efficiency and innovation.