Master Keying Guide

Articles about masterkeying have appeared dozens of times in Locksmith Ledger. Masterkeying has been the topic of books by well-known people in our industry. Full one or two day classes on masterkeying are regularly presented at almost every locksmith convention. With this background, what could possibly be new or different about masterkeying that has not already been discussed?

MasterKing® will guide you through the development of simple or complex master key systems step by step, eliminating the possibility of transposed numbers, duplicated bittings and uncuttable keys. Connect your PC to a Tiger SHARK™ or CodeMax® machine and download master key systems for automatic, error-free key cutting. Below are some basic depth and space charts. If you are just getting started you might consider getting a Foley Belsaw key machine, they can be found on Craigslist for around $200 - $400. You can use it in conjunction wit the charts below to make a most common keys from code. Master keying refers to the keying procedure that makes one lock work with two or more key cut combinations. The master key will be able to open all locks in a complex, and the other key (the tenant key) will only be able to open one lock in the complex. The right combination of bottom pins and master pins will produce a shear line for both keys. Masterkeying a Schlage lock.

What will be presented here is what might be called 'plug-in' masterkeying. It is designed to streamline the dull repetitive process of generating numbers and quickly move you into the profitable part of your job which is key cutting and rekeying.

First, a short primer on key bitting arrays. Yale set the general size for pin tumbler keys 150 years ago. Given this size, it was discovered that the Yale key size allows approximately 10 steps, or increments of depth from the highest possible cut on the key to the lowest possible cut. Lock companies may differ on what the dimension of each depth increment may be (usually between .0125' and .019') but regardless of the dimension being used, the amount of different possible increments for most popular lock companies is 10.

Most popular lock systems use five pin chambers for keying. Some commercial systems may use six or seven pin chambers, but this article will concentrate on a five chamber key system.

Variables such as parts wear and mass production can provide unplanned tolerances in a lock cylinder. With enough tolerance, key cuts such as 13131 and 14141 may unintentionally operate the same cylinder. This is called key interchange and must be avoided. In order to avoid interchanges, masterkey systems are designed to use a larger dimension of two increments between key cuts. Therefore in a masterkey system using key cuts such as 13131 and 15151, cuts of 14141 would not be used at all in order to prevent interchanges. .

Most popular keying systems use a depth numbering system of either 0-9 or 1-10. Since single increment steps should be avoided when masterkeying most lock brands, cut choices in a given chamber will be either 02468 or 13579. Note that the two choice groups are all even numbers or all odd numbers.

One of the key cuts in each chamber will be set aside for the master key cut. This leaves four choices of cut numbers per chamber for individual key combinations in the system which are called change key combinations. Due to four cut choices per chamber, this masterkeying system has become known as the quadrant system.

In order to use this plug-in masterkey system, you must know the cut numbering used by the lock system you are rekeying. As example, Schlage uses a numbering system of 0-9. '0' is the shallowest cut and '9' is the deepest cut. Sargent sectional keyways use a 1-10 numbering system. '1' is the shallowest cut and '0' (10) is the deepest cut.

Knowing the numbering system is important because not all cut combinations can be used due to maximum adjacent cut (MAC) problems. When a very deep cut is made next to a very shallow cut, the 'V' shaped cutter will remove so much material on each side of the deep cut that no key blank material is left for making an adjacent very shallow cut. Each lock company has their own MAC rule.

Before using the plug-in system you must develop the master key cuts. A good master key combination should contain one of the highest cuts in at least one space. This prevents someone from recutting another key in the system to produce a master key. The best master key cuts will have a combination of odd and even adjacent numbers. Master key cuts which use all even or all odd numbers will produce change keys with many repetitive cuts such as 44446 or 53333. These key combinations do not look secure, may allow the key to be removed in the wrong position and may be easier to pick open.

Master Keying GuideMaster

Bitting Charts

You are now ready to develop a bitting chart and use the plug-in masterkey system. An example of Schlage master key cuts may be: 01014. The master key cut in chamber one is '0'. This leaves change key cut possibilities in the first chamber of 2468. Moving to the second chamber, the example masterkey cut '1'. This leaves change key cut possibilities of 3579. Bitting choices for the remaining chambers are chosen in the same fashion.

The resulting example key bitting array might be:

Masterkey 1: 0 1 0 1 4

Masterkey 2: 2 3 6 5 8

Masterkey 3: 6 9 4 9 0

Masterkey 4: 4 5 2 7 2

Masterkey 5: 8 7 8 3 6

Although this example bitting array shows the change key choices in a set order, any mix of the numbers could have been entered. As example, the first space numbers of 2648 could have been arranged differently such as 6284, 4682, etc..

Once you have developed a bitting array, the numbers can be 'plugged-in' to the chart. Numbers on the chart do not show actual cuts, but rather show the position of key cuts in your key bitting array. Therefore cuts for key A01 would be taken from position 2 in each space or 23658. Cuts for key A02 would be taken from position 2 except for space 5 which is position 3. Therefore A02 key cuts would be 23650, A03 cuts would be 23652 and A04 cuts would be 23656 .

If needed, HGM (horizontal master keys), VGM (vertical master keys), page master and four page master key cuts are chosen in the same way. In the example bitting array, the VGM 1-16 key is chosen from array positions 22211, or cuts of 23614. If a cylinder is set to the master key and a change key, vertical, horizontal and page master keys designed to operate the chosen change key will function without adding any additional master chips.

The complete plug-in master key system contains 16 pages with 64 codes per page, or a total of 1024 change key codes. The amount of usable combinations depends on the cut numbers chosen for your bitting array and the MAC number used by the lock manufacturer. Generally about 10 percent of the total change key and lower level master key combinations cannot be used no matter what numbers are used for your bitting list.

Page 1 of the plug-in master key system is included with this article. The remaining 15 pages can be downloaded from the Locksmith Ledger website. By choosing a new, original bitting array for each masterkeying job you do, the plug-in masterkey system charts can be used forever. Locks using single-step masterkey systems such as Kwikset can also be applied to these charts by choosing four single-step cut possibilities per chamber.

One cool thing about pin-and-tumbler locks is that you can re-configure them to fit an existing key (provided that the key is for the same lock design). The advantages of this are obvious: You can add new locks to your home or business without attaching a bunch of new keys to your key ring.

To make a new key for an existing lock, you cut a series of notches in the key so that it raises each of the upper pins just above the shear line. Essentially, you cut a pattern in the metal that matches the pattern of the pins in the lock. To change a lock so that it fits an existing key, you simply work in the opposite direction: You change the pattern of the pins in the lock so that it matches the pattern of notches in the key. If the lock is designed with a universal keying system, any locksmith can re-key the lock in no time. You can also get locks re-keyed at most hardware stores.

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The right combination of pins lines up perfectly with the notches in the key.

In this basic six-pin lock set, you can see how this re-keying works. When you open up the shafts in the cylinder and empty them out, you have six springs and 12 tiny pins. All of the upper pins are exactly the same size. The remaining six pins (the lower pins) will be of various lengths to match up with the notches on the key.

The process of re-keying a lock is very simple. The locksmith removes all of the pins from the cylinder. Then, drawing from a collection of replacement pins of various sizes, the locksmith selects new lower pins that fit perfectly between the notches of the key and the shear line. This way, when you insert the new key, the lower pins will push all the upper pins just above the shear line, allowing the cylinder to turn freely. (This process may vary depending on the particular design of the lock.)

It doesn't matter how long the upper pins are (since they all rest above the shear line when the key is inserted), so the locksmith simply re-inserts the six original upper pins that came with the lock. And that's all there is to re-keying. The entire process takes only a few minutes.

Master keys are an interesting technology somewhat related to lock picking (because they're means of getting past locks without the main key).

Some locks are designed to work with two different keys. The change key will open only that specific lock, while the master key will open that lock and several others in a group. In these locks, a few of the pin pairs are separated by a third pin called a master wafer or spacer.

When three pins are combined in a shaft, there are two ways to position the pins so they open the lock. The change key might raise the pins so that the shear line is just above the top of the master wafer, while the master key would raise the pins so the shear line is at the bottom of the master wafer. In both cases, there is a gap at the shear line and the key is able to turn.

In this lock design, the lowest pin would be the same length in each lock in the group, but the master wafer would vary in length. This lets one person, say a building manager, access many different locks, while each individual key-holder can open only his or her own lock.

Master Keying Guide

In the next section, we'll look more closely at the differences between lock picking by locksmiths and illegal lock picking.