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Rs-Pro Pressure Switch

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Ships within 15 days

RS PRO Pressure Switch, G 1/4 20bar to 400bar Model No 2970080

By RS PRO

₹9,557  

RS PRO Pressure Switch, G 1/4 20bar to 400bar Model No 2970080 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 5bar to 50 bar Model No 2970068

By RS PRO

₹10,265  

RS PRO Pressure Switch, G 1/4 5bar to 50 bar Model No 2970068 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, NPT 1/4 0.2bar to 4 bar Model No 1366270

By RS PRO

₹8,967  

RS PRO Pressure Switch, NPT 1/4 0.2bar to 4 bar Model No 1366270 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 30bar to 300 bar Model No 2970018

By RS PRO

₹30,679  

RS PRO Pressure Switch, G 1/4 30bar to 300 bar Model No 2970018 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 30bar to 250 bar Model No 3636006

By RS PRO

₹14,159  

RS PRO Pressure Switch, G 1/4 30bar to 250 bar Model No 3636006 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 1bar to 12 bar Model No 2970052

By RS PRO

₹9,321  

RS PRO Pressure Switch, G 1/4 1bar to 12 bar Model No 2970052 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, 1/4 in BSP Male 0.2bar to 2.5 bar Model No 8802299

By RS PRO

₹12,979  

RS PRO Pressure Switch, 1/4 in BSP Male 0.2bar to 2.5 bar Model No 8802299 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, M12 x 1 1bar to 30 bar Model No 1366274

By RS PRO

₹16,519  

RS PRO Pressure Switch, M12 x 1 1bar to 30 bar Model No 1366274 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, M12 x 1 1bar to 16 bar Model No 1366277

By RS PRO

₹16,519  

RS PRO Pressure Switch, M12 x 1 1bar to 16 bar Model No 1366277 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, M12 x 1 1bar to 16 bar Model No 1366273

By RS PRO

₹17,699  

RS PRO Pressure Switch, M12 x 1 1bar to 16 bar Model No 1366273 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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Ships within 15 days

RS PRO Pressure Switch, M12 x 1 0.5bar to 8 bar Model No 1366276

By RS PRO

₹9,439  

RS PRO Pressure Switch, M12 x 1 0.5bar to 8 bar Model No 1366276 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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Ships within 15 days

RS PRO Pressure Switch, M12 x 1 0.5bar to 8 bar Model No 1366271

By RS PRO

₹16,519  

RS PRO Pressure Switch, M12 x 1 0.5bar to 8 bar Model No 1366271 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

Add to Cart Buy Now

Ships within 15 days

RS PRO Pressure Switch, M12 x 1 0.2bar to 2 bar Model No 1366275

By RS PRO

₹14,159  

RS PRO Pressure Switch, M12 x 1 0.2bar to 2 bar Model No 1366275 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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Ships within 15 days

RS PRO Pressure Switch, G1/8 -1bar to 3 bar Model No 2354728

By RS PRO

₹28,319  

RS PRO Pressure Switch, G1/8 -1bar to 3 bar Model No 2354728 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G1/8 -1bar to 15 bar Model No 2354727

By RS PRO

₹16,519  

RS PRO Pressure Switch, G1/8 -1bar to 15 bar Model No 2354727 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G1/4 1bar to 16bar Model No 2354731

By RS PRO

₹8,613  

RS PRO Pressure Switch, G1/4 1bar to 16bar Model No 2354731 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G1/4 -1bar to 0bar Model No 2354729

By RS PRO

₹20,059  

RS PRO Pressure Switch, G1/4 -1bar to 0bar Model No 2354729 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G1/4 0bar to 420 bar Model No 2354732

By RS PRO

₹28,319  

RS PRO Pressure Switch, G1/4 0bar to 420 bar Model No 2354732 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G1/4 0.5bar to 8bar Model No 2354730

By RS PRO

₹22,419  

RS PRO Pressure Switch, G1/4 0.5bar to 8bar Model No 2354730 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 5bar to 50 bar Model No 3635980

By RS PRO

₹9,321  

RS PRO Pressure Switch, G 1/4 5bar to 50 bar Model No 3635980 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 5bar to 100 bar Model No 2969995

By RS PRO

₹29,499  

RS PRO Pressure Switch, G 1/4 5bar to 100 bar Model No 2969995 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 50bar to 400 bar Model No 2970030

By RS PRO

₹30,679  

RS PRO Pressure Switch, G 1/4 50bar to 400 bar Model No 2970030 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 2bar to 40 bar Model No 2969989

By RS PRO

₹20,059  

RS PRO Pressure Switch, G 1/4 2bar to 40 bar Model No 2969989 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 1bar to 10 bar Model No 3635968

By RS PRO

₹12,979  

RS PRO Pressure Switch, G 1/4 1bar to 10 bar Model No 3635968 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 10bar to 100 bar Model No 3635996

By RS PRO

₹9,321  

RS PRO Pressure Switch, G 1/4 10bar to 100 bar Model No 3635996 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 10bar to 100 bar Model No 2970074

By RS PRO

₹9,557  

RS PRO Pressure Switch, G 1/4 10bar to 100 bar Model No 2970074 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, G 1/4 0.2bar to 2.5 bar Model No 2970046

By RS PRO

₹8,731  

RS PRO Pressure Switch, G 1/4 0.2bar to 2.5 bar Model No 2970046 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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RS PRO Pressure Switch, 1/4 in BSP Male 1bar to 12 bar Model No 8802289

By RS PRO

₹12,979  

RS PRO Pressure Switch, 1/4 in BSP Male 1bar to 12 bar Model No 8802289 is a type of sensor used in various applications to monitor and control the pressure of fluids or gases within a system. It is a critical component in many industrial processes, HVAC systems, hydraulic systems, and pneumatic systems, among others.
The primary function of a pressure switch is to detect changes in pressure and trigger a response when the pressure reaches a predetermined set point. When the pressure in the system either increases or decreases to the set threshold, the pressure switch activates or deactivates an electrical circuit, initiating specific actions, such as turning on or off pumps, motors, fans, alarms, or safety mechanisms.
The pressure switch typically consists of a pressure-sensing element, an electrical switch, and a mechanism for adjusting the set point. The sensing element is exposed to the fluid or gas whose pressure is being monitored. As the pressure changes, it causes the sensing element to deform or move, which, in turn, actuates the electrical switch, completing or breaking the circuit.
Pressure switches can be designed for various pressure ranges, from low pressures in the millibar range to extremely high pressures in the thousands of psi. They are available in different configurations, such as differential pressure switches, vacuum pressure switches, and absolute pressure switches, each suited for specific pressure measurement needs.
Pressure switches are vital safety devices in many industrial processes. For example, in a steam boiler system, a pressure switch monitors the steam pressure and shuts off the burner if the pressure exceeds a safe level, preventing potential explosions or other hazardous situations.
In HVAC systems, pressure switches monitor air or refrigerant pressure, helping to maintain optimal system performance and energy efficiency. If the pressure deviates from the desired range, the pressure switch can trigger the system to adjust its operations or activate alarms to alert operators of potential issues.
Pressure switches are also commonly used in automotive applications, where they monitor oil pressure, coolant pressure, or tire pressure, providing essential feedback to vehicle systems and ensuring proper functioning and safety.
In conclusion, the pressure switch is a crucial sensing device that plays a vital role in monitoring and controlling pressure levels in various systems. Its ability to trigger specific actions based on pressure changes contributes to the safety, efficiency, and reliability of industrial processes, HVAC systems, and other applications where precise pressure control is essential.

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