US3094039A

US3094039A - Key bitting machine

Info

Publication number: US3094039A
Application number: US15989A
Authority: US
Inventors: Roy C Spain
Original assignee: Yale and Towne Manufacturing Co
Current assignee: Yale and Towne Manufacturing Co
Priority date: 1960-03-18
Filing date: 1960-03-18
Publication date: 1963-06-18
Anticipated expiration: 1980-06-18

Description

R. c. SPAIN 3,094,039

KEY BITTING MACHINE 3 Sheets-Sheet l am s .HIVMI J-.V MP WWK Q Uw Vwm S IN TOR. foy C. Y www 4 f7 ZJ/iD/YGY BLNONS @3:5 ,m Q mw l. 51| H ENUMWWMWHM'WW ,l l SK.MKIH.HU\|I N Swim. i u m@ 9 2m Sf S wmx June 18, 1963 Filed March 18. 1960 June 18, 1963 R. c. SPAIN KEY BITTING MACHINE Filed March 18. 1960 5 Sheets-Sheet 2 ATfOfPN'y June 18, 1963 R. c. SPAIN 3,094,039

KEY BITTING MACHINE Filed March 1e, 1960 s sheets-sheet s IN V EN TOR. -ffoy C. SPA/lv lsv/4MM United States Patent 3,094,039 KEY BITTING MACHINE Roy C. Spain, Salem, Va., assignor to The Yale and Towne Manufacturing Company, Stamford, Conn., a corporation of Connecticut Filed Mar. 18, 1960, Ser. No. 15,989 11 Claims. (Cl. 9013.05)

This invention relates to a machine for bitting keys that are utilized in a rotary tumbler lock.

In locks of the particular class, the tumblers are rotated by a .bitted edge of the key acting against surfaces on the tumblers. Since the tumbler surfaces rotate, the surface of each bitting on the key should be formed in predetermined relation to the tumbler axis, in order to prevent rapid wear and to enable the key to set the tumblers in an accurate position. That, together with the fact that each bitting must be cut to a particular depth in the key, requires that extreme care be utilized in forming the bittings. Through the novel concept of my invention, I now contribute a machine that will very easily and accurately bit the keys of rotary tumbler locks, My machine will, in fact, operate effectively to form bittings that have a complementary arrangement on the opposed edges of the key, as in my earlier Patent No. 2,690,070.

In my novel bitting machine, I effect the hitting of a key by moving the key and a bitting cutter relatively to one another on a short radius. Thus, as a feature of my invention, my machine utilizes a rotating movement such that the cutter will form the bitting surfaces in diierent angular positions on the key, when cutting those surfaces to different depths. In the form of my invention that I prefer, I utilize a key support that rotates about an axis which actually -is equivalent to the axis of the lock tumblers that are to be actuated by the key. My machine then will form bitting surfaces to lie each in a particuluar relation to the key coacting surfaces of the rotary lock tumbler-s, enabling me very easily to bit keys for a lock of the particular class.

As a further feature of my invention, I equip my machine with a pair of the bitting cutters, arranged one at either side of a key on the support. As the key support rotates, the cutters will form bittings Ithat are complementary on the opposed edges of the. key. While complementary, the surfaces of the bittings also will extend in particular lines relatively to the axis of the rotary lock tumblers.

As another feature, my machine has guide means that will facilitate the cutting of a series of bittingsV to a desired shape on the key. vThe guide means include a template, and a follower that is connected to the key support through parts that will effect proportional movements between the follower and key support, as the key support rotates and also moves longitudinally. Those proportional movements enable me to utilize a template that is relatively large so as to be very effective in controlling the cutting of the angularly related key bittings.

I have thus outlined rather broadly the more important features of my invention in order that the detailed description thereof that follows may be better understood, andV in order that my contribution to the art may be better appreciated. ThereV are, of course, additional features of my invention that will be described hereinafter and which will form the subject of the claims appended hereto. Those skilled in the art will appreciate that the conception on which my disclosure is based may readily be utilized as a basis for the designing of other structures for carrying out the several purposes of my invention. It is important, therefore, that the claims be regarded as including such equivalent constructions as do not depart from the spirit and scope of my invention, in order to prevent ice the appropriation of my invention by those skilled in the art.

Referring now to the drawings,

PIG. 1 shows a plan view of my novel key bit-ting machine;

FIG. 2 is a longitudinal section substantially on the line 2 2 in FIG. 1;

FIG. 3 is a cross section on the line 3-3 in FIG. 2;

PIG. 4 shows in detail the construction of the key support;

FIG. 5 shows a section on the line 5-5 in FIG. 2;

FIG. 6 shows a key that is cut on my novel machine.

In the particular construction that I have chosen to illustrate, my novel key hitting machine has a key support, indicated generally by the numeral 10, that is mounted on one end of a shaft 11. I utilize to support the shaft `11 a frame 12, best seen in FIG. 2, having opposed

end portions

13, 14 that are mounted to rotate in bearings 15 on two support members 16. The shaft 111 is arranged in axial relation to the bearings 15, and is adapted to slide in bearing sleeves 17', 18` on the frame 12. Thus, it will be understood that the key support 10 and shaft 11 are mounted for longitudinal movement and also for rotating movement in a particular axis. In FIGS. 1, 2 and 4 I show the key support 10 formed to hold the key that is shown in detail in FIG. 6, that key being like the one shown in my Patent No. 2,690,070, to which I have a1- ready referred.

The key support 10 has a portion 20 that is adapted to accept the bow 21 of the key, with a lug 22 adapted to engage in the opening 23 in the bow. Also, the key support 10 has an arm portion 24 that will accept the blade 25 of the key, with a groove 26, best seen in FIG. 5, for a longitudinal rib 27 on the blade. For reasons that will appear in due course, the arm portion 24 of the key support has a relatively narrow tapered cross section. I equip the key support 10 with a clamp 281 that I prefer to mount on a pivot, and a fluid pressure actuated cylinder 29 that is adapted to move the clamp 28' into position holding the key against the

portions

20 and 24 of the support 10. It is important to observe that the

key support portions

20 and 24 in my novel machine are so formed as to Support the key in a longitudinal position that is a rela- .tively short distance from the axis in which the support rotates, that being the axis of shaft 11'.

I equip my machine with a pair of

cutting wheels

30, 31, such as grinding Wheels or disc saws, having each a shaft 32 that is mounted to rotate on a casing 33 as shown in FIG. l. Suitable means are utilized to rotate the

cutting wheels

30, 31, and for purposes of disclosure I show a moto-r 34 that will drive the shafts 32 through a belt 35, and gears 36 in the casing 33. The shafts 32 support the

wheels

30, 31 in particular positions with their cutting surfaces opposed to the two edges of the key on the key support 10. If we refer particularly to FIG. 5, we see that the positions of the

wheels

30, 31 are such that the cutting contact between each wheel and the key, as indicated by the numeral 37 or 38, will lie substantially in a line that extends to the axis in which the key support rotates, indicated by the numeral 39.

The importance of that arrangement will be better appreciated when it is realized that the

wheels

30, 31 then will `form the bitting surfaces of lthe key in angular relation to one another, as is indicated by the cutting contacts 37 and 3S in FIG. 5, and substantially radial to the axis 39. Moreover, the hitting surfaces always -Will lbe radial regardless of the depth to which they are cut, due to the rotation of the key about axis 39.

The construction that I have described represents a veryV considerable contribution to the art, because it will enable me very easily to bit the edges of a key that is used in a rotary tumbler lock, and also to form the bittings in cornplementary fashion on a key that is to be used in a lock like that shown in my patent. However, my machine does have further features that are of importance and that contribute very considerably to the effective operation of my machine.

If we -refer now to FIGS. 2 and 3 of the drawings, we will see that the frame y12 has on its upper portion a pair of

guideways

40, 41 on which a slide 42 moves longitudinally, or in other words in a direction parallel to the shaft 11. The slide 42 itself is formed with a guideway 43 on its lower surface. I mount a pair of rollers 44 on the shaft 11, as through a bracket 45 bolted to the shaft, those rollers being engaged in the guideway 43 so that the shaft 11 always will rotate bodily with the frame 12.

=I also equip my machine with gear means extending between the slide 42 and shaft I11, those gear means including a rack 46 mounted on the lower side of slide 42, and a gear 47 that is meshed with the rack. The gear 47 is mounted on a shaft 48 that rotates in bearings on the side walls of frame 12 and that has a relatively small gear 49 mounted to rotate integrally with gear 47. To the bottom of shaft @11 I bolt a rack 50 that meshes with the small gear 49. The arrangement is such that the slide 42 will move a predetermined distance longitudinally relatively to frame 12 while shaft 11 has a relatively short sliding movement.

On the top of the support members 16 I mount a ternplate 51, FIGS. 1, 2 and 3, that extends longitudinally in a position above the slide 42. In the form that I prefer and that I show in FIG. 1, the template 51 has grooves 54 that are shaped to correspond to the configurations of the different bittings that may be cut in a key. Thus, I prefer to form the grooves 54 in three longitudinal lines 54a, 54b, 54C, that correspond to different depths of bittings that may be cut, with inclined connecting lines at positions that may correspond to the edges of bittings that can be formed in different longitudinal positions on the key. The operator of the machine will select merely one of the longitudinal lines of grooves 54a, 54b, 54C as a guide for forming a particular bitting, depending upon the depth to which he Wishes to cut the bitting. If he wishes, he may select a different groove 54a, 54b or 54a for the next bitting, using as a guide for the transition an appropriate inclined groove such as 54d or 54e. While corresponding to the possible bittings, the grooves 54 nevertheless are formed on a scale much larger than that of the actual bittings.

Wtih the template grooves 54 I utilize a follower 53 in the form of a spring pressed pin that is mounted on a yoke 52 fixed to the slide 42. The follower 53 will move through a greater longitudinal distance than does the key support 10, due to the action of the

gears

47, 49. In addition, the follower 53 will have more movement in a transverse direction because of its relatively greater distance from the axis about which a key on the key support rotates. Actually, the relative movements between the follower 53 and key will be proportional during both the longitudinal and rotating movements of the key support 10. Since the template grooves 54 are formed on a large scale, the operator of the machine then can utilize the template as a guide for the follower S3 so as to achieve very easily the accurate bitting of the key.

I prefer to equip the rotating frame 12 with a handle 55 shown in FIG. 3, through which the operator can rotate the key support 10. In addition, I equip the yoke 52 with a handle 56 -that the operator can use for moving the slide 42 to effect longitudinal movements of the key support 10. It will be appreciated, of course, that the particular actuating means are not important to an understanding of my invention, and it is merely necessary to know that the movements of the frame 12 and slide 42 in my novel machine will enable the very effective bitting of a key for a rotary tumbler lock.

I believe that the construction and operation of my novel key bitting machine will noW be understood, and

that the very considerable value of my invention will be fully appreciated by those skilled in the art.

I now claim:

l. In a machine of the class described for bitting keys for `a rotary tumbler lock, said keys being bitted by forming bitting surfaces at different depths in longitudinal edges of the keys with the surfaces extending across said edges, a bitting cutter, a support for holding a key so that a longitudinal edge of the key is against said cutter whereby to form a bitting surface on the key, and means mounting said key support to rotate on a relatively short radius so that the cutter when cutting the bitting surface to different depths in the key will form the surface in different angular positions relatively to the key.

2. In a machine of the class described for bitting keys for a rotary tumbler lock, said keys being bitted by forming bitting surfaces at different depths in longitudinal edges of the keys with the surfaces extending across said edges, `a bitting cutter, a support for holding a key relatively to said cutter, means mounting said key support for rotation about a predetermined longitudinal axis to move a longitudinal edge of the key against the cutter, said support by so rotating enabling the cutter to form a bitting surface at different depths in the key, and means mounting said cutter in position so that the cutting contact between the cutter and key will lie substantially on a line extending to the predetermined axis about which the key support rotates, whereby to form the bitting surface in radial relation to a particular point regardless of the depth to which it is cut.

3. In a machine of the class described for bitting keys for a rotary tumbler lock, said keys being bitted by forming bitting surfaces at different depths in longitudinal edges of the keys with the surfaces extending across said edges, a bitting cutter, a support for holding a key relatively to said cutter, means mounting said key support for rotation about a predetermined longitudinal axis to move a longitudinal edge of the key against the cutter, means mounting said key support for longitudinal movement so that said support by rotating will enable the cutter to cut a series of bitting surfaces to different depths at points along the longitudinal edge of the key, and means mounting said cutter in position so that the cutting contact between the cutter and key will lie substantially on a line extending to the predetermined axis about which the key support rotates, whereby the cutter will form all of the bitting surfaces in radial relation to a particular point regardless of the depth to which each surface is cut.

4. In a machine of the class described for bitting keys for a rotary tumbler lock, said keys being bitted by forming bitting surfaces at different depths in longitudinal edges of the keys with the surfaces extending across said edges, a bitting cutter, a support for holding a key relatively to said cutter, means mounting said key support for rotation to move a longitudinal edge of the key against the cutter, means mounting said key support for longitudinal movement so that said support by rotating will enable the cutter to cut a series of bitting surfaces to different depths at points along .the longitudinal edge of the ke and said bitting surfaces when formed to different depths lying in angular relation to one another due to the rotation of said key support.

5. In a machine of the class described for bitting keys for a rotary tumbler lock, said keys being bitted by formbitting surfaces at different depths in longitudinal edges of the keys with the surfaces extending across said edges, a bitting cutter, a support for holding a key relatively to said cutter, means mounting said key support for rotation about a longitudinal axis that is in offset relation to the key, said support by rotating about said axis moving a longitudinal edge of the key against the cutter and enabling the cutter to cut a bitting surface to different depths in the key, and means mounting said cutter in position so that the cutting contact between the cutter and key will lie substantially on a line extending to said axis about which the key support rotates, whereby to form the hitting surface in radial relation to a particular point regardless ofthe ydepth to which it is cut.

6. In a machine for hitting keys that yare utilized to rotate tumhlers about a particular axis in a lock, said keys being hitted by forming hitting surfaces at different depths in longitudinal edges of the keys with the surfaces extending across s-aid edges, a hitting cutter, a support for holding -a key so that a longitudinal edge of the key is against said cutter, means mounting said key support for rotation -to move the key about an axis that is equivalent to the axis about which the lock tumblers rotate, and said support 'by moving the key about said axis enabling the cutter to cut hitting surfaces to different depths in the key, while cutting these surfaces at angles to effect predetermined surface cont-ac-t between the keyr and the rotating lock tumhlers regardless of the depth to which the hitting sur- `faces are cut.

7. In a machine of the class described for hitting keys for a rotary tumbler lock, a pair of hitting cutters, a support tfor holding a key in position with one edge of the key in opposite relation to each cutter, means mounting said key support lfor rotation to enable the cutters to out complementar-y hitting surfaces to different depths in the edges of the key, and means mounting said cutters in position so that the cutting contact between the cutters and the key will lie substantially on lines extending to a particular point, whereby the cutter will yform the complementary hitting surfaces in substantially the same angular relation to one another on the opposed edges of the key, regardless of the depth of cut.

8. In a machine for hitting keeys that are utilized to set lock tumhlers that have key coacting surfaces formed at a particular radial distance from an axis in which the tumblers rotate, a pair of hitting cutters, a support dior holding a key in position with one edge of the key in opposed relation to each cutter, means mounting said key support for rotation 'about a predetermined axis to move the key on a radius equivalent to .the radial distance of the key coactting surfaces of the lock tuinblers, said support by rotating enabling the cutters to cut complementary hitting surfaces to different depths in the opposed edges of the key, tand means mounting said cutters in position so that the cutting contact between each cutter and the key will lie substantially on a line extending to said axis about which the key support rotates, whereby the cutters will form the complementary hitting surfaces to extend substantially in radial relation to the axis of the lock tumhlers regardless of the depth to which those suryfaces are cut.

9. In a machine of the class described for hitting keys for a rotary tumbler lock, a hitting cutter, a support, for holding a key relatively to said cutter, means mounting said key support for rotation to move a key against the cutter, means mounting said key support for longitudinal movement to enable the cutter to form a series of hitting surfaces on the key, a relatively stationary template, said template including surfaces corresponding to and proportionally larger than the surfaces of a series of hittings that may be cut on the key, a follower mounted for movement on said template surfaces, and means connecting said template and the key support for proportional movements as the key support rotates and moves longitudinally, so as to facilitate the cutting of the hitting surfaces to an accurate shape on fthe key.

'10. In ia machine -for hitting keys that are utilized to set lock tumblers that have opposed key coacting surfaces in predetermined relation to an axis in which the tumhlers rotate, a pair of hitting cutters, a support for holding a key in position with one edge of the key in opposed rela tion to each cutter, means mount-ing said support to move the key longitudinally and also to rotate the key relatively to the cutters about an axis equivalent to the axis about which the lock tunrhlers rotate, whereby to efect the cuting of -a complementary series of hitting surfaces on each edge of the key, with said hitting surfaces in substantially the same relation to the axis of rotation as are the key coacting surfaces of the lock tumblers, a relatively stationary template on the machine, said template including surfaces corresponding to and proportionally larger than the surfaces of fa series of hittings that may he cut on the key, a follower mounted yfor movement on said template surfaces, and means connecting said template and key support for proportional movements as the key support rotates and moves the key longitudinally, so as to facilitate the cutting .ot the complementary hitting surfaces on the key yto an accurate shape that will enable those surfaces to have substantially a surface contact with the key coacting surfaces of the lock tumblers.

ll. In a machine of the class described lfor hitting keys for a rotary tumbler lock, said keys being hitted by torming hitting `surfaces to different depths in longitudinal edges or" the keys with the surfaces extending 4across said edges, a :hitting cutter, a support 4for holding a key relatively to said cutter, means mounting said key support and cutter for rotation relatively to one another about a longitudinal axis to etfect an arcuate movement between a longitudinal edge of the key tand the cutter, said cutter forming a hitting surface lat different depths in said edge depending upon the extent of said arcuate movement, and said cutter being. so positioned on its mounting that the cutting contact between the cutter Iand key will lie suhstantially on a line extending to said longitudinal axis, whereby to form the hitting surface in radial relation to a particular point regardless of the depth to which it is cut.

References Cited in the tile of this patent UNITED STATES PATENTS tl,'978,009 Caron Oct. 23, 1934 2,158,761 Olson May 16, 1939 2,469,027 Beisser May =3, 1949

Claims

1. IN A MACHINE OF THE CLASS DESCRIBED FOR BITTING KEYS FOR A ROTARY TUMBLER LOCK, SAID KEYS BEING BITTED BY FORMING BITTING SURFACES AT DIFFERENT DEPTHS IN LONGITUDINAL EDGES OF THE KEYS WITH THE SURFACES EXTENDING ACROSS SAID EDGES, A BITTING CUTTER, A SUPPORT FOR HOLDING A KEY SO THAT A LONGITUDINAL EDGE OF THE KEY IS AGAINST SAID CUTTER WHEREBY TO FORM A BITTING SURFACE ON THE KEY, AND MEANS MOUNTING SAID KEY SUPPORT TO ROTATE ON A RELATIVELY SHORT RADIUS SO THAT THE CUTTER WHEN CUTTING THE BITTING SURFACE TO DIFFERENT DEPTHS IN THE KEY WILL FORM THE SURFACE IN DIFFERENT ANGULAR POSITIONS RELATIVELY TO THE KEY.