Shopping on line can be easy, simple and save you lots of money. It can also take a lot of your time, frustrate you, and result in unwanted purchases. Now the same can be said for regular high street shopping, but with the vast opportunity presented by the Internet it will pay you to spend a few minutes reading this and understanding how to better optimize your Interlocking shopping experience:

1. Compare - without doubt the biggest advantage that the Interlocking offers shoppers today is the ability to compare thousands of Interlocking at a time. This is a great thing, but not necessarily all the time! Too much can be daunting at times so take advantage of the great comparison sites and where possible let them do the hard work for you.

2. Research - if it has been said it will be on the internet. Ignorance is no longer a justifiable reason for buying the wrong thing. Take the time to research in detail everything that you could possible want to know about

3. Testimonials - don't know anybody that has bought a Interlocking? Wrong! If the Interlocking is good the internet will let you know. Use the Internet as a friend and get testimonials before you buy.

4. Questions - Got a question about Interlocking then search the Forums, FAQ's, Blogs etc. Don't be afraid to ask .....

5. Reputation - Never heard of the company selling Interlocking? Don't worry, no reason why you should know every company in the world, but you know someone that does! Use the internet to find out what people are saying about Interlocking and build up a picture of their reputation for sales, returns, customer service, delivery etc.

6. Returns - still worried that even after all of the above your Interlocking wont be what you want? Check out the returns policy. There is so much competition now that someone, somewhere is bound to offer the terms that you are comfortable with.

7. Feedback - happy with your Interlocking then let people know, after all you are depending on others people input in your buying decision, so why not give a little back.

8. Security - check for the yellow padlock on the Interlocking site before you buy, and the s after http:/ /i.e. https:// = a secure site

9. Contact - got a question about Interlocking, or want to leave a comment then check out the sites contact page. Reputable companies have them and respond.

10. Payment - ready to pay for your Interlocking, then use your credit card or PayPal! Be aware of companies that don't accept them, there may be genuine reasons but given the huge amount of choice you have when buying online there is no reason at all not to buy via credit card or PayPal.

For the use of the term 'interlocking in music, see Hocket For the use of the term interlocking in electronics, electrical, and computer applications see interlock (engineering) , in 1993.In railway signaling, an interlocking is an arrangement of signal apparatus that prevents conflicting movements through an arrangement of tracks such as junctions or crossings. The signaling appliances and tracks are sometimes collectively referred to as an interlocking plant. An interlocking is designed so that it is impossible to give clear signals to trains unless the route to be used is proved to be safe.

A typical railroad definition of interlocking is "an arrangement of signals and signal appliances so interconnected that their movements must succeed each other in proper sequence."

Configuration and use A minimal interlocking consists of signals, but usually includes additional appliances like switches (points in UK parlance), Derail (railroad), crossings at grade and movable bridges. Some of the fundamental principles of interlocking include:

• Signals may not be operated to permit conflicting train movements to take place at the same time.
• Switches and other appliances in the route must be properly 'set' (in position) before a signal may allow train movements to enter that route.
• Once a route is set and a train is given a signal to proceed over that route, all switches and other movable appliances in the route are locked in position until either
• the train passes out of the portion of the route affected, or
• the signal to proceed is withdrawn and sufficient time has passed to ensure that a train approaching that signal has had opportunity to come to a stop before passing the signal.

Interlocking types Interlockings can be categorized as all-mechanical, electrical (relay-based), and electronic/computer-based.

Mechanical interlocking In mechanical or power interlocking plants, a locking bed is constructed, consisting of steel bars forming a grid. The control levers that operate Railroad switch, Derail (railroad), signals or other appliances are connected to the bars running in one direction. .The bars are constructed so that, if the function controlled by a given lever conflicts with that controlled by another lever, mechanical interference is set up in the cross locking between the two bars, in turn preventing the conflicting lever movement from being made.

In purely mechanical plants, the levers operate the field devices, such as signals, directly via a mechanical rodding or wire connection. The levers are about shoulder height since they must supply a mechanical advantage for the operator. Cross locking of levers was effected such that the extra leverage could not defeat the locking (preliminary latch lock.)

Electro-mechanical interlocking Power interlockings also use mechanical cross locking to ensure the proper sequencing of levers, but the levers are considerably smaller as they themselves do not directly control the field devices. If the lever is free to move based on the locking bed, contacts on the levers actuate the switches and signals which are operated electrically or electro-pneumatically. Before a control lever may be moved into a position which would release other levers, an indication must be received from the field element that it has actually moved into the position requested. The locking bed shown is for a GRS power interlocking machine.

Relay interlocking Interlockings effected purely electrically consist of complex circuitry made up of relays that ascertain the state or position of each signal appliance. As appliances are operated, their change of position opens some circuits that lock out other appliances that have would conflict with the new position. Similarly, other circuits are closed when the appliances they control become safe to operate. Equipment used for railroad signaling tends to be expensive because of its specialized nature and fail-safe design.

Interlockings operated solely by electrical circuitry may be operated locally or remotely. Furthermore, such an interlocking may be designed to operate without a human operator. These arrangements are termed automatic interlockings, and the approach of a train sets its own route automatically, provided no conflicting movements are in progress.

Electronic interlocking Modern interlockings — those installed since the early 1990s — are generally solid state (electronics), where the complex wired networks of relays are replaced by software logic running on special-purpose fail-safe control hardware. The fact that the logic is implemented by software rather than hard-wired circuitry greatly facilitates the ability to make modifications when needed by reprogramming rather than rewiring.

By whatever means of technology are used, interlockings are designed to ensure that no operation can be performed unless all prerequisites have been satisfied.

Special interlocking functions

Approach locking This is to prevent the change of route ahead of a signal once the operator has seen a proceed aspect at the signal or has seen an aspect at a previous signal that would indicate to him that the former signal is displaying a proceed aspect. Provision must, however, be made for such locking to be released provided a reasonable assurance can be given that any movement, the operator of which has sighted a proceed aspect, will in the event of the signal being replaced to danger, either have come to a stand at the signal or will have run past the signal onto the track circuits which lock the points or level crossing. Such provision may often take the form of a timer device, i.e. if the track circuit has remained occupied the train must have come to a stand.

Universal interlocking A universal interlocking allows movement from any track to any other track.

See also

• Signal box
• Railway signalling
• Railway switching networks

External links

• Principles of Interlocking

For the use of the term 'interlocking in music, see Hocket For the use of the term interlocking in electronics, electrical, and computer applications see interlock (engineering) , in 1993.In railway signaling, an interlocking is an arrangement of signal apparatus that prevents conflicting movements through an arrangement of tracks such as junctions or crossings. The signaling appliances and tracks are sometimes collectively referred to as an interlocking plant. An interlocking is designed so that it is impossible to give clear signals to trains unless the route to be used is proved to be safe.

A typical railroad definition of interlocking is "an arrangement of signals and signal appliances so interconnected that their movements must succeed each other in proper sequence."

Configuration and use A minimal interlocking consists of signals, but usually includes additional appliances like switches (points in UK parlance), Derail (railroad), crossings at grade and movable bridges. Some of the fundamental principles of interlocking include:

• Signals may not be operated to permit conflicting train movements to take place at the same time.
• Switches and other appliances in the route must be properly 'set' (in position) before a signal may allow train movements to enter that route.
• Once a route is set and a train is given a signal to proceed over that route, all switches and other movable appliances in the route are locked in position until either
• the train passes out of the portion of the route affected, or
• the signal to proceed is withdrawn and sufficient time has passed to ensure that a train approaching that signal has had opportunity to come to a stop before passing the signal.

Interlocking types Interlockings can be categorized as all-mechanical, electrical (relay-based), and electronic/computer-based.

Mechanical interlocking In mechanical or power interlocking plants, a locking bed is constructed, consisting of steel bars forming a grid. The control levers that operate Railroad switch, Derail (railroad), signals or other appliances are connected to the bars running in one direction. .The bars are constructed so that, if the function controlled by a given lever conflicts with that controlled by another lever, mechanical interference is set up in the cross locking between the two bars, in turn preventing the conflicting lever movement from being made.

In purely mechanical plants, the levers operate the field devices, such as signals, directly via a mechanical rodding or wire connection. The levers are about shoulder height since they must supply a mechanical advantage for the operator. Cross locking of levers was effected such that the extra leverage could not defeat the locking (preliminary latch lock.)

Electro-mechanical interlocking Power interlockings also use mechanical cross locking to ensure the proper sequencing of levers, but the levers are considerably smaller as they themselves do not directly control the field devices. If the lever is free to move based on the locking bed, contacts on the levers actuate the switches and signals which are operated electrically or electro-pneumatically. Before a control lever may be moved into a position which would release other levers, an indication must be received from the field element that it has actually moved into the position requested. The locking bed shown is for a GRS power interlocking machine.

Relay interlocking Interlockings effected purely electrically consist of complex circuitry made up of relays that ascertain the state or position of each signal appliance. As appliances are operated, their change of position opens some circuits that lock out other appliances that have would conflict with the new position. Similarly, other circuits are closed when the appliances they control become safe to operate. Equipment used for railroad signaling tends to be expensive because of its specialized nature and fail-safe design.

Interlockings operated solely by electrical circuitry may be operated locally or remotely. Furthermore, such an interlocking may be designed to operate without a human operator. These arrangements are termed automatic interlockings, and the approach of a train sets its own route automatically, provided no conflicting movements are in progress.

Electronic interlocking Modern interlockings — those installed since the early 1990s — are generally solid state (electronics), where the complex wired networks of relays are replaced by software logic running on special-purpose fail-safe control hardware. The fact that the logic is implemented by software rather than hard-wired circuitry greatly facilitates the ability to make modifications when needed by reprogramming rather than rewiring.

By whatever means of technology are used, interlockings are designed to ensure that no operation can be performed unless all prerequisites have been satisfied.

Special interlocking functions

Approach locking This is to prevent the change of route ahead of a signal once the operator has seen a proceed aspect at the signal or has seen an aspect at a previous signal that would indicate to him that the former signal is displaying a proceed aspect. Provision must, however, be made for such locking to be released provided a reasonable assurance can be given that any movement, the operator of which has sighted a proceed aspect, will in the event of the signal being replaced to danger, either have come to a stand at the signal or will have run past the signal onto the track circuits which lock the points or level crossing. Such provision may often take the form of a timer device, i.e. if the track circuit has remained occupied the train must have come to a stand.

Universal interlocking A universal interlocking allows movement from any track to any other track.

See also

• Signal box
• Railway signalling
• Railway switching networks

External links

• Principles of Interlocking