Pressure switch
A pressure switch is a form of switch that closes an electrical contact when a certain set pressure has been reached on its input. The switch may be designed to make contact either on pressure rise or on pressure fall.
Another type of pressure switch detects mechanical force; for example, a pressure-sensitive mat is used to automatically open doors on commercial buildings.
Fluid pressure switches
A pressure switch for sensing fluid pressure contains a capsule, bellows, Bourdon tube, diaphragm or piston element that deforms or displaces proportionally to the applied pressure. The resulting motion is applied, either directly or through amplifying levers, to a set of switch contacts. Since pressure may be changing slowly and contacts should operate quickly, some kind of over-center mechanism such as a miniature snap-action switch is used to ensure quick operation of the contacts. One sensitive type of pressure switch uses mercury switches mounted on a Bourdon tube; the shifting weight of the mercury provides a useful over-center characteristic.
The pressure switch may be adjustable, by moving the contacts or adjusting tension in a counterbalance spring. Industrial pressure switches may have a calibrated scale and pointer to show the set point of the switch. A pressure switch will have a differential range around its setpoint in which small changes of pressure do not change the state of the contacts. Some types allow adjustment of the differential.[1]
The pressure-sensing element of a pressure switch may be arranged to respond to the difference of two pressures. Such switches are useful when the difference is significant, for example, to detect a clogged filter in a water supply system. The switches must be designed to respond only to the difference and not to false-operate for changes in the common mode pressure.
The contacts of the pressure switch may be rated a few tenths of an ampere to around 15 amperes, with smaller ratings found on more sensitive switches. Often a pressure switch will operate a relay or other control device, but some types can directly control small electric motors or other loads.
Since the internal parts of the switch are exposed to the process fluid, they must be chosen to balance strength and life expectancy against compatibility with process fluids. For example, rubber diaphragms are commonly used in contact with water, but would quickly degrade if used in a system containing mineral oil.
Switches designed for use in hazardous areas with flammable gas have enclosure to prevent an arc at the contacts from igniting the surrounding gas. Switch enclosures may also be required to be weatherproof, corrosion resistant, or submersible.
An electronic pressure switch incorporates some variety of pressure transducer (strain gauge, capacitive element, or other) and an internal circuit to compare the measured pressure to a set pont. Such devices may provide improved repeatability, accuracy and precision over a mechanical switch.
Examples
Pneumatic
Uses of pneumatic pressure switches include:
- Switch a household well water pump automatically when water is drawn from the pressure tank.
- Switching off an electrically driven gas compressor when a set pressure is achieved in the reservoir
- Switching off a gas compressor, whenever there is no feed in the suction stage.
- in-cell charge control in a battery
- Switching on/off an alarm light in the cockpit of an aircraft if cabin pressure (based on altitude) is critically low.
- Air filled hoses that activate switches when vehicles drive over them. Common for counting traffic and at gas stations.
Hydraulic
Hydraulic pressure switches have various uses in automobiles, for example:
- To switch on a warning light if engine oil pressure falls below a safe level
- In dust control systems (bag filter), a pressure switch is mounted on the header which will raise an alarm when air pressure in the header is less than necessary to gain or decline energy beyond the set value
- To control automatic transmission torque converter lock-up
See also
References
- ↑ Bela G. Liptak (ed), Instrument Engineers' Handbook, Fourth Edition CRC Press, 2003 ISBN 1420064029 pages 790-793
External links
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