Industrial Relays are used for Safety applications, applications recurring long life, heavy loads, hazardous areas and difficult environments, Latch and Pneumatic timers etc. Industrial relays have important features that provide safe, more reliable design of control systems.
We are Manufacturer, Supplier and Exporter of our product range. Our setup is situated in Pune, Maharashtra, India and majorly we serve our customers from all over India including metro cities like Pune, Mumbai, Bangalore, Chennai, Delhi, Hyderabad.
At Kura Electronics,we provide best quality industrial relays in the sector of electronics. Our objective is to ensure customer satisfaction by delivering quality relays and associated products that align with the unique requirements of our customers. At Kura Electronics, our vision is to establish ourselves as a leading supplier and exporter in the field of electronics sector. We aim to achieve this by consistently enhancing our offerings and pushing the limits of technology. By providing the safest, most efficient and robust products, we aspire to be a steadfast partner in the growth journey of our valued clients. We do keep a check on the pricing strategy as well as our business policies to keep our customers satsified.
Industrial relays are devices used in industrial settings to control and manage the flow of electronics and electricity in various applications. They are crucial components in automation systems and other industrial applications where precise and reliable control of circuits is required. Industrial relays help to switch and control currents, enabling the activation or deactivation of devices and machinery. Relays work based on the principle of an electromagnetic coil that generates a magnetic field when an conductive current passes through it. This magnetic field causes a set of contacts, typically made of metal to move and either complete or break an electrical circuit. In essence, relays act as remote switches that can be controlled by a relatively low power signal, making them suitable for controlling higher power circuits.
- Electromechanical Relays : These are the traditional relays that use an electromagnetic coil to control a mechanical switch. They offer a reliable switching mechanism but might have limitations in terms of speed and durability compared to newer technologies.
- Solid State Relays : Solid state relays use semiconductor components like thyristors or transistors to perform the switching action. They have no moving parts, making them faster, more durable and suitable for high frequency operations.
- Time Delay Relays : These relays are used to introduce a time delay between the activation of the control signal and the actual switching action. They are commonly used in applications where controlled delays are required such as motor starting and stopping sequences.
- Protective Relays : These relays are designed to monitor and protect digital systems from overcurrent, undercurrent, overvoltage, undervoltage and other abnormal conditions. They help prevent damage to equipment and ensure safe operation.
- Latching Relays : Latching relays have two stable states and require a pulse of current to switch between these states. Once switched, they remain in that state even if the control signal is removed. They are often used when maintaining a certain state is critical such as in emergency shutdown systems.
LMZ1
LMI1-T
LMI2-T
LRT1
LRT2
- Motor Control : Relays play a crucial role in starting, stopping and controlling the direction of electric motors in various industrial applications, including conveyor systems, pumps and fans.
- Process Automation : In automated industrial processes, relays help control valves, actuators and other equipment to maintain precise control over manufacturing processes.
- Lighting Control : Relays manage lighting systems in industrial facilities. They enable efficient control of lighting levels based on occupancy, time of day or ambient light conditions.
- Heating, Ventilation and Air Conditioning (HVAC) : Relays are used to control the operation of heating, cooling and ventilation systems in industrial buildings, ensuring optimal comfort and energy efficiency.
- Safety Systems : Protective relays are a critical component of safety systems, helping to detect faults and abnormal conditions that could set forth risks to working personnel and equipment.
- Isolation : Relays provide wired isolation between control and power circuits, enhancing safety and preventing interference.
- Versatility : They can handle both low power control signals and high power loads.
- Reliability : Electromechanical relays offer a proven, robust switching mechanism, while these relays offer high speed and durable switching.
- Precision : Time delay relays enable precise timing sequences in industrial processes.