Difference between revisions of "Project:Lockpicking/Inside lock"
Jump to navigation Jump to search
Inside a lock is made of the following: 10 springs (under much tension), 10 bottom pins and 10 top pins. On each side of the lock there would be five pins (some locks have more than five pins on each side.)
Here a view of the top pin. The top pin varies in length but it usually the same form.
Here is a view of the bottom pin. The bottom pin varies in length like the top pin, however, the bottom pin have more variations in form than the top pin. This pin is what we call a spool pin. These variations make lockpicking more difficult rather than the pin just having a straight form since these pins get stuck in the lock much easier than pins just with a straight form.
Here we can see the top pins, the bottom pins and the springs in a lock. At the present state, the lock is locked and cannot be opened since the pins are blocking the sheer line. In order for a lock to open, all pins must be aligned at the sheer line.
Here we have yet another view of the top pin, bottom pin and the spring. Here we can see clearly that the bottom pin is blocking the sheer line and thus the lock cannot open.
In order for a lock to open, all pins must be aligned on the sheer line. This is the function of the key. The cuts in the key correspond to the length of the pins inside the lock. This image shows five top pins aligned neatly to the key above.
In this image, we can see that the right key is inside the lock. We see that all the pins are aligned neatly. We can see that there is a space between the top and bottom pins which we call the sheer line. In the present state, the lock can turn and open since no pins are blocking the movement of the lock.
Here we see the right key in the lock and we see that all pins are aligned neatly on the sheerline and that there are no pins blocking the lock. Thus, the lock can turn open
In this image, a wrong key is in the lock. You can see clearly that the sheerline is blocked. The sheerline is blocked by either the top pin or the bottom pin.
These are the middle parts of the euro cylinder. In order to take apart the lock, the two rings on either side must first be removed. Be very careful when taking out the plug of the lock as the springs are under much tension and if not properly blocked, will pop out and land somewhere where you can't find them!
This is the plug of the lock. This part of the lock turns only when all pins are neatly aligned on the sheerline. Notice that the five holes are not totally in a straight line.
We see here how the lock moves a lever which disengages the lock so that the door can open. It should be noted this design has not changed very much since the 19th century when it was first designed in Germany.
|Line 61:||Line 61:|
==of the Wrong Key in a Lock==
Revision as of 11:52, 8 March 2011
Inside a Lock
Have you ever wondered (or cared) what is inside a lock? How does a lock close and how does a lock open? For this example, we have taken a "eurocylinder" The eurocylinder is the most used door lock in Europe.
Overview of inside a lock
The Pins Inside the Lock
Function of the key inside the lock
Example of the Wrong Key in a Lock
Other parts of the Euro Cylinder
How does the lock open the door?