ELECTRONIC MONITORING AND CONTROL SYSTEMS
Large grain elevators typically are controlled electronically from a control room. GIPSA
personnel in the elevator also relay heavily on electronic monitoring to for official weights and for
verifying that the grain which has been weighed and inspected is the same grain being loaded on
the ship. Components of a monitoring or control system can be classified as follows:
Input Devices
These provide the monitoring/control system with raw information about the operation of the
elevator. Examples are Limit Switches, Level Switches, Load Cells, and Potentiometers.
Output Devices
These operate the motors and hydraulic or pneumatic cylinders that
power the elevator. Examples are Power Relays and Solenoid Valves.
Input and ouput devices are often lumped together as "I/O" devices.
Logic Devices
These draw conclusions from the information provided by input
devices, activate output devices, and alert human operators of conditions requiring their attention.
Examples are Relay Logic Circuits, Programmable Logic Controllers, and Computers.
Indicating Devices
These convey information to human operators. Examples are
indicator lights, dials, video displays, and audible alarms.
Controls
These allow input from human operators. Examples are Buttons, Keyboards,
Mice, Trackballs, Touch screens, and Thumbwheels.
Limit Switches
Limit Switches are the most numerous input devices in an elevator. They tell the system the
position of gates, doors, turnheads, or distributors, and the alignment of belts. A switch can only
tell whether an object is present or absent at a certain location. A pair of switches can tell if a
gate is completely closed or fully open, but not where the gate is if it is somewhere between those
two limits. A limit switch can be operated by mechanical contact, by breaking a beam of light, or
by detecting the disturbance of a magnetic field caused by a metal object.
The following diagram shows a mechanical limit switch wired to a pair of indicator lights. It has
an actuator arm which operates the switch contacts when it is moved slightly by contact with a
piece of equipment such as a slide gate. The arm is spring-loaded, so it returns from its actuated
position to its normal position when the equipment moves away. In the diagram, you can operate
the limit switch by moving the arm with a mouse.
A limit switch has at least two sets of contacts: "Normally Closed" (NC) and "Normally Open"
(NO) . When the switch is in the normal position (nothing touching the arm), the Normally
Closed contacts pass electricity, so the diagram shows the Normally Closed indicator light as lit.
When the switch is in the actuated position, the Normally Open (NO) contacts pass electricity, so
the Normally Open indicator light is lit. The "Common" wire carries electricity to both sets of
contacts. The terminology of switches is the reverse of the terminology of gates: Switch contacts
let electricity pass when they are closed. A gate lets grain pass when it is open.
If you have a browser for Virtual Reality Modeling Language (VRML), such as Cosmo Player
from Silicon Graphics, you can operate an interactive 3-D model
of the gates and limit switches under a shipping bin. VRML browsers normally require
Windows 95 or Windows NT.