EP1542822A2 - A universal key making device - Google Patents

Abstract

The invention relates to a single key making device that is capable of clamping and cutting any of a group of keys from a plurality of the main classes of keys which includes any two or more cylinder keys, bit keys, laser keys, and special multi-angled keys.

Description

TECHNICAL FIELD

This invention generally relates to methods and apparatus for key making. More particularly, the invention is a universal key making machine that makes the 4

popular types of keys (the "main keys') in the world on a single machine.

BACKGROUND OF THE INVENTION

For hundreds of years prior to 1844 nearly all locks used a skeleton type key,

which is also called a bit or double bit key. These keys are still popular in many parts

of the world. The machine that makes bit keys uses a flat cutting wheel to cut the

square notches typical in these keys and the machine has not changed in principle for

hundreds of years except for being powered by an electric motor when that became

available.

In 1844, Linus Yale Sr. patented a new lock based on movable pins that held

the bolt in place until they were raised by a small flat key with "v" shaped notches. By

the middle of the 20^th century this pin tumbler lock and its convenient small flat key

were very popular and in fact became the world's standard for cars, homes and

padlocks around the world. Often this key is referred to as a "Yale type key" or "blade

key". It is the key that people around the world are most familiar with.

To duplicate a "Yale type key" it required a new kind of key making machine

which used a "V" shaped trace cutting wheel to match the "v" shaped notches instead

of the flat "slotting" wheel on a bit key machine that cut square notches. This resulted

in two different machines to cut the two types of keys. This began a tradition of

creating a new type of key cutting machine for each new type of lock. In the late 1970 and the early 1980's a movement began, by European

insurance companies and car manufacturers, to improve locking systems by creating new types of locks and their corresponding new types of keys because cars equipped

with "Yale type" keys were being picked or by-passed and stolen in the west and shipped to a ready market in the formerly closed satellite countries of the USSR.

As car manufacturers installed these new types of locks in their cars, a

corresponding proliferation of matching new key cutting machines where sold to

locksmiths shops. These types of security keys also extended to the house and small

lock market. In the end, a typical locksmith shops went from 2 different types of key

cutting machines (bit keys and Yale type keys) in 1950 to 20 or more machines by the

beginning of the 2002.

Each of these 20 machines can be more or less automatic, and/or they can cut

by code or cut by trace cutting. However, there are 4 main basic classes of key

machines which cut a particular class of key and no other class without changing

cutting wheels or reconfiguring the fixturing mechanism on the machine. Regardless

of how automatic a machine is or whether it makes keys by code or by trace cutting,

it can make only one class or type of key and not the other three types.

The four main classes of keys are as follows:

1) Cylinder keys or V cut keys are keys cut on one side like a standard Yale

or on two sides like a Ford automobile key. These keys use trace cutting

wheels for trace cutting a key, as on Silca Bravo Super at:

http://www.silca.it/download/brochure/eng/KeyMachines/bravogbD01.pdf,

or Silca Unocode key cutting machines for electronic code cutting at: http://www.silca.it/download brochure/eng/KeyMachmes/399gbD01.pdf,

or these keys can be cut using a form cutting wheel, like on an Silca Formula X or HPC code cutting machines.

2) Bit keys. Also called square notched, mortice keys, lever keys, or skeleton

keys, and including double bit keys. To cut these keys you need a slotter wheel

(or simply a slotter) like the Silca Tech 3 Europa at:

http ://www. silca. it/do wnload/brochure/eng/KevMachines/techgbDO 1.pdf.

3) Special multi angle keys, also called square notch with angle keys, include

Tibbe, Abloy, Ford Chubb, and Ford FO 19 keys. These keys are made on

machines such as the Silca Delta 2000 MC Multi Copy at:

http://www.silca.it/download/brochure/eng/KeyMachines/delmcgbD01.pdf

4) Laser keys, also called side milled keys, end mill keys, or milled keys,

including dimple keys which can be cut on the same machine by changing the

cutting tool from a flat milling tool to a round tool that just plunges into the

key to make a dimple as opposed to a winding groove like on Mercedes keys

and tubular keys which use an end miller cutter and a different fixture. These

types of machines use various end mill tools or dimple tools as on a Silca

Q u a t t r o c o d e a t :

http://www.silca.it/download/brochui-e/eng/KeyMachines/4codegbD01.pdf.

Alternative technology to the present invention is available in the form of the

foregoing specialized key making machines, each with its own specialized cutting wheels and fixtures. There has been, until now, no key cutting device that could cut any two of these classes of keys in a single machine. To alleviate this problem, and

others which will become apparent from the disclosure which follows, the present invention conveniently provides a universal key making machine that makes the 4

popular types of keys (the "main keys') in the world on a single machine.

The citation of the foregoing publications is not an admission that any

particular publication constitutes prior art, or that any publication alone or in

conjunction with others, renders unpatentable any pending claim of the present

application. None of the cited publications is believed to detract from the patentability

of the claimed invention.

ADVANTAGES OF THIS INVENTION The key machine art has taught us that each lock manufacturer has adopted one of 4 main basic types of locks and corresponding keys to open that lock. The types are: 1) Cylinder keys sometimes referred to as V cut keys, 2) Bit keys sometimes referred

to as Square notched keys, 3) Special multi-angled keys sometimes referred to as

Square notch with angle keys, and 4) Laser keys sometimes referred to as end milled

keys.

Various lock manufacturers mass produce these 4 types of locks and at the

same time mass produce a corresponding matching set of 2 or more original keys for

each lock on a large, industrial, , high speed biting machine costing upwards of

$ 100,000. These are dedicated machines that are set up to make not only that specific

type of key, but also a single key profile and specific blank with a rubber handle for

instance. These industrial machines typically produce an original, code cut key at the

rate of 10 or more per minute.

After these locks and keys are put in the market place and sold to retail

customers in such applications as cars, houses, offices, small locks, etc.. any additional

duplicate keys needed by the customer have to be made on a smaller, key duplication

machine that duplicates each individual key one at a time in 1 to 5 minutes. Various

key machine manufacturers have built specific small key duplication machines for

each of these 4 types of keys. Within each of these 4 types of key machines there are

automatic options available that correspondingly cost more or less depending on how

automatic the operation is. But, regardless of how automatic the machine is, it will

still only cut the one type of key it was designed for. Another option, within the 4 types of key machines, is the ability to cut by code, which can also be more or less automatic with correspondingly higher and lower prices. But, regardless of such

options, the machines still only cut the one type of key the machine was designed for. For example a # 4 End mill machine that is fully automatic and cuts by code is sold

by the Silca division of ILCO UNICAN for over $20,000. But, a manual End Mill

machine that cuts by code is only $5,000. While a manual End Mill machine that does

not cut by code is only $2,000. But regardless of price or options, each machine only

cuts its own type of key. So, for each of the 4 types of key machines, there are many

options and a wide range of prices. But, each machine only makes it own type of key.

Today 100' s of thousands of these machines are found in locksmith shops and the like.

The advantage of the present invention is that it can automatically cut any two

or more of the 4 types of keys without changing a cutting wheels, changing the

fixturing (i.e. manner of clamping) or changing key cutting machines altogether.

The advantages of a universal, all in one machine is that it is an easy to use and

replaces 20 or more models of key cutting machines that are difficult to learn because

each has its own set of instructions. With the present invention, there is a one time

learning process that covers all 4 types of keys.

Also, having many machines instead of one makes it difficult to maintain

because each machine has to be calibrated periodically on an individual basis. With

the present invention, a single machine is calibrated once, but makes all the 4 types

of keys.

Also, Retail floor space is expensive and so another advantage is that this one

machine replaces many machines using less of the valuable retail floor space. These together with other objects of the invention, along with the various

features of novelty which characterize the invention are pointed out with particularity

in the claims annexed to and forming a part of this disclosure. For a better

understanding of the invention, its operating advantages and the specific objects

attained by its uses, reference should be had to the accompanying drawings and

descriptive matter in which there is illustrated preferred embodiments of the invention.

Still other advantages will be apparent from the disclosure that follows.

SUMMARY OF THE INVENTION

The invention relates to a single key making device with means for clamping

any of a group of keys, and means for cutting any preselected key from the plurality

of the main classes of keys, with the group of keys having a plurality of the main

classes of keys and the main classes of keys.

A means for supporting one of any preselected key is provided, as well as a

means for cutting and a means for clamping. The means for supporting is

independently mo veable relative to the means for cutting. Additionally, the means for

supporting may be independently moveable relative to the means for clamping during

the cutting procedure.

Additionally, the means for cutting of the present invention may further

include means for cutting a multi-angled key which has a blade. The means for

cutting a multi-angled key is free of the means for supporting the blade during the

cutting procedure. Furthermore, the means for clamping includes means for clamping a multi-angled key to be cut which is independently moveable relative to the means for cutting.

Furthermore, the means for clamping may further comprise means for

clamping a mill cut key with a blade to be cut on both side. The means for cutting will

includes means for cutting a mill cut key, and the means for clamping is independently

moveable relative to the means for cutting. The blade can be cut on both sides without

re-fixturing the mill cut key in the means for clamping.

There has thus been outlined, rather broadly, the more important features of

the invention in order that the detailed description thereof that follows may be better

understood, and in order that the present contribution to the art may be better

appreciated. There are, of course, additional features of the invention that will be

described hereinafter and which will form the subject matter of the claims appended

hereto. Those skilled in the art will appreciate that the conception upon which this

disclosure is based, may readily be utilized as a basis for the designing of other

structures, methods and systems for carrying out the several purposes of the present

invention. It is important, therefore, that the claims be regarded as including such

equivalent constructions insofar as they do not depart from the spirit and scope of the

present invention.

BRIEF DESCRIPTION OF THE DRAWING

Preferred embodiments of the invention are described hereinafter with

reference to the accompanying drawing wherein: Fig. 1 is a perspective view of the universal cutting device of the present invention showing the means for cutting any preselected key from a plurality of main classes of keys showing the means for cutting having a slotter, a circular cutting wheel and mill cutter with supporting anvils on each side of the circular

cutting wheel, respectively supporting cuts on either side of the blade of the key, and

with independently movable anvils supporting the laser key which is cut by the end

mill cutter;

Fig. 2 is a detailed fragmentary perspective view of the universal cutting

device of the present invention showing a laser key being supported by an anvil and

having a groove cut therein by an end mill cutter;

Fig. 3 is a illustration of the use of a slotter to cut a blade of a multi-angled key

for making cutting contact with the blade and the slotter at a plurality of discrete

tangential locations;

Fig. 4 is a fragmentary perspective view showing a multi-angled key being

positioned by the means for clamping to be cut by the slotter;

Fig. 5 is a fragmentary perspective view of the movable means for clamping;

Fig. 6 is a fragmentary perspective view of a bit key being positioned to be cut

by the slotter;

Fig. 7 is a fragmentary perspective view of a cylinder key being positioned to

be cut by the circular cutting wheel; and

Fig. 8 is a block diagram of the electronically related components of the key

making device. DETAILED DESCRIPTION OF THE INVENTION The preferred embodiments depicted in the drawing comprise a single key making device with means for clamping any of a group of keys, and means for cutting any preselected key from the plurality of the main classes of keys, with the group of keys having a plurality of the main classes of keys and the main classes of keys including any two or more cylinder keys, bit keys, laser keys, and special multi-angled

keys

Without departing from the generality of the invention disclosed herein and without limiting the scope of the invention, the discussion that follows, will refer to

the invention as depicted in the drawing.

The preferred embodiments of the apparatus depicted in Figs. 1-8 of the

drawing comprise a key making device comprising means for clamping 5 any of a group of keys, and means for cutting 4 any preselected key from the plurality of the main classes of keys. The group of keys has a plurality of the main classes of keys. The main classes of keys includes any two or more cylinder keys 18, bit keys 16, laser keys 14 and special multi-angled keys 12.

Preferably, the means for cutting 4 includes produces a control signal 22 indicative of a first cut from a first of one of any preselected key from the plurality of

the main classes of keys, and cutting a first corresponding cut in another of the one of

any preselected key from the plurality of the main classes of keys using the control signal 22 indicative of the first cut, as shown in Fig. 8.

The means for clamping 5 may comprise a clamp (or jaw) 6 have a pair of opposing jaws, as best seen in Fig. 5. The preselected key may have a blade 7 and the opposing jaws operatively engage the blade 7 of any preselected key from the plurality

of the main classes of keys.

Preferably, the means for cutting 4 comprises at least two of a slotter 1 , a

circular cutting wheel 2, and an end mill cutter 8.

The key making device of this important invention may further have means for

supporting the blade 7 of a key, particularly the blade 7 of a laser key, during a cutting

procedure. Uniquely, the means for supporting 9 is independently moveable relative

to the means for cutting 4. Additionally, the means for supporting 9 may be

independently moveable relative to the means for clamping 5 during the cutting

procedure.

The means for cutting 4 of the present invention may further include means for

cutting a multi-angled key which has a blade 7. The means for cutting a multi-angled

key is free of the means for supporting 9 the blade during the cutting procedure.

Furthermore, the means for clamping 5 includes means for clamping a multi-angled

key to be cut which is independently moveable relative to the means for cutting 4.

Additionally, the means for clamping 5 may further comprise means for clamping a mill cut key with a blade 7 to be cut on both side. The means for cutting

4 will includes means for cutting a mill cut key, and the means for clamping 5 is

independently moveable relative to the means for cutting 4. As can be appreciated

when viewing Fig.2, the blade 7 can be cut on both sides without re-fixturing the mill

cut key in the means for clamping 5.

A preferred embodiment of the key making device comprises means for

clamping 5 any of a group of keys, means for supporting the blade of any of the cylinder keys 18, bit keys 16, and laser keys 14 during a cutting procedure, and means for cutting 4 the preselected key from the plurality of the main classes of keys. The group of keys has a plurality of the main classes of keys with each of the keys having

a blade 7. The main classes of keys includes any two or more cylinder keys, bit keys,

laser keys, and multi-angled keys.

The means for clamping 5 comprises a clamp βhave a pair of opposing jaws

that operatively engage one of any preselected key from the plurality of the main

classes of keys. The means for clamping 5 includes means for clamping a multi-

angled key to be cut with the means for clamping a multi-angled key 12 being

independently moveable relative to the means for cutting 4.

The means for clamping 5 further includes means for clamping a mill cut key

with a blade 7 to be cut on both side and is independently moveable relative to the

means for cutting 4. In this way, the blade 7 can be cut on both sides without re-

fixturing the mill cut key in the means for clamping 5.

The means for supporting 9 the blade 7 of any of the cylinder keys, bit keys,

and laser keys during a cutting procedure is independently moveable relative to the

means for cutting 4, and independently moveable relative to the means for clamping

5 during the cutting procedure, as shown in Fig.2. Additionally, the means for cutting

4 the preselected key from the plurality of the main classes of keys comprises at least

two of a slotter 1 , a circular cutting wheel 3 , and an end mill cutter 8. The means for

cutting 4 includes means for cutting a multi-angled key that is independent of means

for supporting the blade during the cutting procedure, as shown in Fig. 4, and the

means for cutting 4 includes means for cutting a mill cut key. Preferably, the means for cutting 4 includes producing a control signal indicative of a first cut of a first of one of any preselected key from the plurality of the

main classes of keys, and cutting a first complementary cut in another of the one of any preselected key from the plurality of the main classes of keys using the control

signal indicative of the first cut.

Another embodiment of the key making device comprises means for cutting

4 a key having a blade 7, and means for supporting the blade during a cutting

procedure. The means for supporting is independently moveable relative to the means

for cutting 4, so that a blade 7 having a first area to be cut and a second area to be cut

can be supported on a first side of the blade 7 by the means for supporting disposed

in a first position while the first area of the blade 7 is being cut and on a second side

of the blade by the means for supporting disposed in a second position while the

second area is being cut, as shown in Figs. 1 and 2. It will be appreciated that the laser

key can be cut with grooves on the top and bottom of the blade by the bottom and the

top of the end mill cutter, respectively.

Additionally, the means for cutting 4 may include producing a control signal

22 indicative of a first cut of a first key, and cutting a first complementary cut in

another of the first key using the control signal indicative of the first cut, as shown in

Fig. 8.

Furthermore, the means for supporting 9 may comprise an anvil 2. Preferably,

the anvil has a first surface transverse to a first contact surface of the means for cutting

4 and a second surface transverse to a second contact surface of the means for cutting

4. And the anvil may have a first surface normal to a first contact surface of the means for cutting 4 and a second surface normal to a second contact surface of the means for

cutting 4. In one preferred embodiment, as shown in Figs. 1-2, the anvil has a framelike shape 2a with an inner contact surface 2b.

Another embodiment of the key making device comprises means for clamping

5 a key to be cut, with the key having a blade 7, and means for supporting 9 the blade

7. The means for supporting 9 is independently moveable relative to the means for

clamping 5 during a cutting procedure. The key making device may further comprise

means for cutting 4 that includes producing a control signal 22 indicative of a first cut

of a first key, and cutting a first complementary cut in another of the first key using

the control signal indicative of the first cut.

Additionally, the means for supporting may be independently moved into a

position in which the blade 7 is supported prior to commencement of the cutting

procedure.

Another embodiment of the key making device comprises means for cutting

a multi-angled key and means for clamping 5 a multi-angled key to be cut. The multi-

angled key has a blade 7. The means for cutting 4 is independent of means for

supporting the blade during the cutting procedure. The means for clamping 5 is

independently moveable relative to the means for cutting 4.

Preferably, the means for cutting 4 includes producing a control signal

indicative of a first cut of a first multi-angled key, and cutting a first complementary

cut in another of the first multi-angled key using the control signal indicative of the

first cut. As shown in Fig. 1, the means for cutting 4 may comprise a cutting wheel 3.

As shown in Figs. 1, 3-4 and 6, the means for cutting 4 may comprise a slotter

1. Each of a plurality of multi-angled cuts can be made to the blade 7 of the multi-

angled key by making cutting contact between the blade 7 and the slotter at one of a

plurality of discrete tangential locations along the periphery of the slotter 1, as

illustrated in Fig. 3.

Referring to Fig. 2, another preferred embodiment of the key making device

comprises means for clamping a mill cut key that has a blade 7 to be cut on both side,

and means for cutting a mill cut key, where the means for clamping is independently

moveable relative to the means for cutting 4, so that the blade 7 can be cut on both

sides without re-fixturing the mill cut key in the means for clamping 5. Preferably,

the means for cutting 4 includes producing a control signal indicative of a first cut of

a first mill cut key, and cutting a first complementary cut in another of the first mill

cut key using the control signal indicative of the first cut.

Additionally, the key making device may comprise an anvil (2, 2a) and the

means for cutting 4 may include a cutting tool. The anvil 2a is independently

moveable relative to both the means for clamping 5 and the cutting tool (i.e. the end

mill cutter 8), as shown in Fig. 1.

While this invention has been described in connection with the best mode

presently contemplated by the inventor for carrying out his invention, the preferred

embodiments described and shown are for purposes of illustration only, and are not

to be construed as constituting any limitations of the invention. Modifications will be obvious to those skilled in the art, and all modifications that do not depart from the spirit of the invention are intended to be included within the scope of the appended

claims. Those skilled in the art will appreciate that the conception upon which this disclosure is base, may readily be utilized as a basis for the designing of other

structures, methods and systems for carrying out the several purposes of the present

invention. It is important, therefore, that the claims be regarded as including such

equivalent constructions insofar as they do not depart from the spirit and scop of the

present invention.

My invention resides not in any one of these features per se, but rather in the

particular combinations of some or all of them herein disclosed and claimed and it is

distinguished from the prior art in these particular combinations of some or all of its

structures for the functions specified.

With respect to the above description then, it is to be realized that the optimum

dimensional relationships for the parts of the invention, to include variations in size,

materials, shape, form, function and manner of operation, assembly and use, are

deemed readily apparent and obvious to one skilled in the art, and all equivalent

relationships to those illustrated in the drawings and described in the specification are

intended to be encompassed by the present invention.

Therefore, the foregoing is considered as illustrative only of the principles of

the invention. Further, since numerous modifications and changes will readily occur

to those skilled in the art, it is not desired to limit the invention to the exact

construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the

invention.

Claims

What is claimed as being new and desired to be protected by Letters Patent of the United States is as follows:

1. A key making device comprising:

a. means for clamping any of a group of keys,

i. said group of keys having a plurality of the main

classes of keys,

ii. said main classes of keys includes any two or more

cylinder keys, bit keys, laser keys, and special multi-

angled keys; and

b. means for cutting any preselected key from the plurality of the

main classes of keys.

2. The key making device of claim 1, wherein the means for cutting

includes producing a control signal indicative of a first cut from a first

of one of any preselected key from the plurality of the main classes of

keys, and cutting a first corresponding cut in another of said one of any

preselected key from the plurality of the main classes of keys using the

control signal indicative of the first cut.

3. The key making device of claim 1 , wherein the means for clamping

comprises a clamp having a pair of opposing jaws.

4. The key making device of claim 3, wherein the preselected key has a

blade and wherein the opposing jaws operatively engage the blade of

any preselected key from the plurality of the main classes of keys.

5. The key making device of claim 1, wherein the means for cutting comprises at least two of a slotter, a circular cutting wheel, and an end mill cutter.

6. The key making device of claim 1, further comprising means for

supporting the blade during a cutting procedure that is independently

moveable relative to the means for cutting.

7. The key making device of claim 6, wherein the means for supporting

is independently moveable relative to the means for clamping during

the cutting procedure.

8. The key making device of claim 1 , wherein

a. the means for cutting includes means for cutting a multi-angled

key,

i. said multi-angled key having a blade,

ii. said means for cutting a multi-angled key being

independent of means for supporting the blade during

the cutting procedure; and

b. the means for clamping includes means for clamping a multi-

angled key to be cut,

i. said means for clamping a multi-angled key being

independently moveable relative to the means for

cutting.

9. The key making device of claim 1 , wherein a. the means for clamping includes means for clamping a mill cut

key, i. said mill cut key having a blade to be cut on both side; and

b. the means for cutting includes means for cutting a mill cut key,

i. said means for clamping being independently

moveable relative to the means for cutting,

whereby, the blade can be cut on both sides without re-

fixturing the mill cut key in the means for clamping.

10. A key making device comprising:

a. means for clamping any of a group of keys,

i. said group of keys having a plurality of the main

classes of keys, with each of said keys having a blade,

ii. said main classes of keys includes any two or more

cylinder keys, bit keys, laser keys, and multi-angled

keys,

iii. said means for clamping comprises a clamp having a

pair of opposing jaws and wherein the opposing jaws

operatively engage one of any preselected key from the

plurality of the main classes of keys,

iv. said means for clamping includes means for clamping

a multi-angled key to be cut, (1) said means for clamping a multi-angled key

being independently moveable relative to the

means for cutting,

v. said means for clamping includes means for clamping

a mill cut key with a blade to be cut on both side,

(1) said means for clamping being independently

moveable relative to the means for cutting,

whereby, the blade can be cut on both sides without re-

fixturing the mill cut key in the means for clamping;

b. means for supporting the blade of any of the cylinder keys, bit

keys, and laser keys during a cutting procedure is

i. independently moveable relative to the means for

cutting, and

ii. independently moveable relative to the means for

clamping during the cutting procedure; and

c. means for cutting the preselected key from the plurality of the

main classes of keys,

i. said means for cutting comprises at least two of a

slotter, a circular trace cutting wheel, and an end mill

cutter,

(1) said the means for cutting includes means for

cutting a multi-angled key that is independent of means for supporting the blade during the cutting procedure, and (2) said means for cutting includes means for

cutting a mill cut key.

11. The key making device of claim 10, wherein the means for cutting

includes producing a control signal indicative of a first cut of a first of

one of any preselected key from the plurality of the main classes of

keys, and cutting a first complementary cut in another of said one of

any preselected key from the plurality of the main classes of keys using

the control signal indicative of the first cut. '

12. A key making device comprising:

a. means for cutting a key having a blade; and

b. means for supporting the blade during a cutting procedure,

i. said means for supporting being independently

moveable relative to the means for cutting,

whereby, a blade having a first area to be cut and a second area

to be cut can be supported on a first side of the blade by the means for

supporting disposed in a first position while the first area of the blade

is being cut and on a second side of the blade by the means for

supporting disposed in a second position while the second area is

being cut.

13. The key making device of claim 12, wherein the means for cutting

includes producing a control signal indicative of a first cut of a first key, and cutting a first complementary cut in another of said first key

using the control signal indicative of the first cut.

14. The key making device of claim 12, wherein the means for supporting comprises an anvil.

15. The key making device of claim 14, wherein the anvil has a first

surface transverse to a first contact surface of the means for cutting and

a second surface transverse to a second contact surface of the means

for cutting.

16. The key making device of claim 15, wherein the anvil has a first

surface normal to a first contact surface of the means for cutting and

a second surface normal to a second contact surface of the means for

cutting.

17. The key making device of claim 16, wherein the anvil has a frame-like

shape with an inner contact surface.

18. A key making device comprising:

a. means for clamping a key to be cut,

i. said key having a blade; and

b. means for supporting the blade,

i. said means for supporting being independently

moveable relative to the means for clamping during a

cutting procedure.

19. The key making device of claim 18, further comprising means for

cutting that includes producing a control signal indicative of a first cut of a first key, and cutting a first complementary cut in another of said

first key using the control signal indicative of the first cut.

20. The key making device of claim 18 , wherein the means for supporting is independently moved into a position in which the blade is supported

prior to commencement of the cutting procedure.

21. A key making device comprising:

a. means for cutting a multi-angled key,

i. said multi-angled key having a blade,

ii. said means for cutting being independent of means for

supporting the blade during the cutting procedure; and

b. means for clamping a multi-angled key to be cut,

i. said means for clamping being independently

moveable relative to the means for cutting.

22. The key making device of claim 21, wherein the means for cutting

includes producing a control signal indicative of a first cut of a first

multi-angled key, and cutting a first complementary cut in another of

said first multi-angled key using the control signal indicative of the

first cut.

23. The key making device of claim 21, wherein the means for cutting

comprises a cutting wheel.

24. The key making device of claim 23, wherein the cutting wheel is a

slotter.

25. The key making device of claim 24, wherein each of a plurality of multi-angled cuts can be made to the blade of the multi-angled key by making cutting contact between the blade and the slotter at one of a

plurality of discrete tangential locations along the periphery of the slotter.

26. A key making device comprising:

a. means for clamping a mill cut key,

i. said mill cut key having a blade to be cut on both side;

and

b. means for cutting a mill cut key,

i. said means for clamping being independently

moveable relative to the means for cutting,

whereby, the blade can be cut on both sides without re-

fixturing the mill cut key in the means for clamping.

27. The key making device of claim 26, wherein the means for cutting

includes producing a control signal indicative of a first cut of a first

mill cut key, and cutting a first complementary cut in another of said

first mill cut key using the control signal indicative of the first cut.

28. The key making device of claim 26, further comprising an anvil and

wherein the means for cutting includes a cutting tool, said anvil being

independently moveable relative to both the means for clamping and

the cutting tool.