US1459248A

US1459248A - Milling machine for continuous milling

Info

Publication number: US1459248A
Application number: US296390A
Authority: US
Inventors: James F Patton; John E Mcallister
Original assignee: Individual
Current assignee: Individual
Priority date: 1919-05-12
Filing date: 1919-05-12
Publication date: 1923-06-19
Anticipated expiration: 1940-06-19

Description

June 19, 1923. 1,459,248

J. F.' PATTQNET AL MILLING-MACHINE FOR CONTINUOUS MILLING Filed May 12, 1919 a Sheets-Sheet 1 gwven'mu June 1 9, 1923. 1,459,248

.L'F. PATTON ET AL. MILLING MACHINE FOR CONTINUOUS MILLING .Filed Ma 12', 1919 3 Sheets-Sheet 2 ,ilnueu tow June 19, 1923. 3,459,248 J.. F. PATTON ET AL MILLING MACHINE FOR CONTINUOUS MILLING Filed May 12, 1919 5 Sheets-Sheet 3- 7224', IYTTOEA/EV Patented June 19,. 1923.

TENT 1 JAMES F. PATTON AND JOHN E. MCALLISTEB, OF CLEVELAND, OHIO. 2

Application filed May 12,

To all whom it may concern:

Be it known that we, JAMES F. Pivr'roN and JOHN E. MoALLIs'rnn, citizens of the United States, residing at Cleveland, in the State of Ohio, have invented new and useful Improvements in Milling Machines for Continuous Milling, of which the following is a specification.

Our invention relates .particularly to a machine which operates upon formed blanks to convert them into castellated nuts. In general castellated nuts are hexagonal in form at their base and are provided with an upper cylindrical portion. Through a portion are milled slots which are perpendicular to the lines forming the sides of the formed blanks. It is an object of our invention to mill these slots in the formed blanks.

Various objects and advantages of our invention will be set forthhereinafter.

For the purpose of more fully disclosing the nature and advantages of our invention, we will describe the specific embodiment thereof illustrated in the accompanying drawing. It should be understood, however, that our invention is capable of various modifications and, therefore, it is not limited to the particular structure illustrated.

In the accompanying drawings Figure is a plan view of one form of our machine. Fig. 2- is a plan view of a portion of the machine on a larger scale. Fig. 3 is a sectional view taken on the line cr -a of Fig. 1. F ig. t is a section on the line c-c of Fig. 1 and Figs. 5 to '12 show details of the mechanism.

e provide a hopper 1 from which the formed blanks 2 drop into pockets in a feed wheel 3 which is mounted in a shaft which is rotated as hereinafter described.

As shown in F ig's. 1'1 and'12 the feed wheel consists of a central cylinder 5 between two flanges 6. The flanges are'pro-videdwith inwardly extendingremovable teeth 7 held in place by screws 8. It will be seen that the teeth are beveled at their inner ends so as to correspond to the form of the formed blanks 2. It will be understood that the teeth 7 illustrated in'Fig. 1'1 are adapted for the particular formed blankQ shown in position in the drawings. Formed blanks of other sizes-or other contours may be accommodated by substituting; for the teeth 7 herein shown, other suitably formed teeth.

MILLING MACHINE FOR CONTINUOUS MILLING.

1919. Serial No. 296,390.

Thefeed wheel 3 is loosely mounted on the shaft t'but is provided in its end'with teeth that the feed wheel turns with the shaft.

Fig. 11 and so draw the teeth 9 and 10 out-10f engagement. In this condition the feed wheel 3 may be adjusted about'the shaft4' so as to properly receive-the formed blanks from the hopper 1.

Extending between the teeth 7 and over the central cylinder 5'of the feed wheel 3 is a guide'b'ar 13 'showninperspective in Fig. 9. This-guide bar forms a bottom forthe pockets formed betweenthe' teeth '7 to receive the formed blanks and as the feed wheel revolves, the 'formediblank's are 'forcedalong this guide bar into the channel 14 int0 which the end of the guide ban-enters andis fastened.

The channel 14 is-at right angles with the axis of the feed wheel so that as the wheel rotates it forces the formed blanks 2 through the channel. The channel may be of any suitable length and at a proper point in it we provide a cutter 15 which is adapted to 'be rotated in a manner hereinafter described'a'nd cuts a slot across one diameter of the formed blanks as they pass by the cutter. In the particular embodiment of our invention shown in the drawings, the cutter consists of the usual disc mounted over the channel 14 and acting upon the tops of the formed blanks as they are passed under the cutter. The channel is provided with retaining plates 16 which hold the formed blanks in the channel. These retaining plates do not at all times bear upon the formed blanks but allow them free passage and at the same time prevent the formed blanks from buckling or turning pendicular to two of extending through the base of the channel and surrounded by coil springs 19 which act between the bottom of the channel base 20 and nuts 21 on the ends of the shanks to hold the pressure bars 17 down. The pres sure bars have noses. 22 projecting over and in engagement with the formed blanks in the channel. As shown in Fig. 7 the noses of the pressure bars have a fiat portion between two rounded ends so that the formed blanks may be readily fed under the pressure bars in their travel through the channel. It will be readily seen that the effect of so holding'the formed blanks while being acted on by the cutter will be to produce a slot of uniform depth.

It will be remembered that the teeth 7 in the feed wheel 3 are formed and arranged to grasp the formed blanks in such a way asto force them forward while in direct contact with each other on their sides in contradistinction to their angles. The relative proportions of the teeth, feed wheel and formed blanks is such that after the formed blanks leave the hopper they are always in contact with each other so that there is a continuous train of formed blanks passing through the channel and they are forced under the cutter by a continuous forward movement and not by an intermittent movement. The arrangement ofthe formed blanks in the channel and when the cutter acts upon the formed blanks is such that the slot milled in the formed blanks is performed blanks.

In order to complete the milling operation on. the formed blank, which requires the milling of two additional slots at an angle with reference to the first milled slot, it is necessary to feed the formed blanks. when once cut; at an angle to their first cut and then again at an angle to both the first and the second slots.

when so turned each blank will have in it three milled slots extending entirely across the formed blank and perpendicular to the Y beyon'd that a third channel 24 at an angle to the channel Associated with each ofthe channels 23 and '24 are, corresponding cutters 1.5and their associated pressure bars and appurtenances, as well as feed wheels si milar'to the feed wheel 3 for forcing the formed blanks through the channels and underthe cutters.

In order to insure that the formed blanks will be turned properly when passing from one channel to the other, we have pro the side faces of the Y channel and under the cutter.

from one channel to the other and over the It is obvious that if simi-- lar cuttlngmechanisms are arrange to act upon the formed blanks in'their movement wters 15.

associated with the channel 14.

wheel 25 mounted on a perpendicular pivot 26 adjacent to the path of the formed blanks and arranged to receive a formed blank between each pair of points. The inner angle at the turn of the channel consists preferably of a separate plate 27 having its point cutaway. This-plate 27 is held by screws 28 in the channel base 20 and the screw holes in the plate are so formedthatthere is a little room for movement so that when the screws are loosened the plate and its guiding side may be slightly adjusted to accommodate the particular formed blanks being operated upon. Opposite the plate 27 in the outer wall of the channel at the angle is a guide 29 adjustable under the head of the bolts 30 which engage the channel base 20.

The adjustable guide 29 may be so adjusted to receive the formed blanks, is properly.

adjusted on its shaft to grasp the formed blanks as they pass from the transfer wheel 25 and force them as so turned through the Extending central cylinder 5 and between theteeth .7"

of the feed wheel. 3 at an angle, is an angular guide bar 31. shown in plan in Fig. 8 WllJCll acts as a bottom for the pockets formed by the teeth 7 and insures a smoothv even passage way for the formed blanks from one channel to the other and while being turned.

The feed wheels and the cutters may be driven by any suitable mechanism. For example wehave shown a verticalshaft 32 carrying two

horizontal pinions

33 and 34. The upper beveled ninion 34 engages the pinions 35 on the shafts carrying the cut- The lower beveled opinion 33 cngages a pinion 36 on a jack shaft 37 which in turn carries a pinion 38 engaging a pinion 39 on the shaft 4 of the feed wheel 3 Also engaging the lower pinion 33 is a pinion 40 on the jack shaft 41 which in turn carries a pinion 42 engaging a pinion 43 on the shaft 4 of the feed wheel 3 associated with the channel 24. The jack shaft 41 also carries a pinion 44 engaging a pinion 45 on the tical shaft 32 is properly rotated by "a motor or other suitablemechanism (not shown) it will. in turn, drive the three feed wheels in the proper direction to force the formed blanks forward through the charm ls and at the same time rotatethe cutters in the opposite direction, that is so that-the bottom or cutting points of the cutters will be operating in a direction opposite to the direction of movement of the formed blanks. in

nel to hold a nut, a cutter projectingbe tween the pressure bars to cut the nuts, a spacing bar in the end of the channel, a transfer wheel adjacent the spacing bar engaging the nuts to turn them, a second channel at an angle to the first channel, a second feed'wheel in line with the second channel to receive the nuts from the transfer wheel and feed them through the second channel, retaining plates loosely holding nuts in the second channel, pressure bars supported adjacent the second channel to hold a nut, a cutter projecting between the pressure bars to cut the nuts, a spacing bar in the end of the second'channel, a transfer wheel adjacent the last mentioned spacing bar engaging the nuts to turn them, a third channel at an angle to the first two channels, a third feed wheel in line with the third channel to receive the nuts from the transfer wheel and feed them through the third channel, retaining plates loosely holding nuts in the third channel, pressure bars supported adjacent the third channel to hold a nut and a cutter projecting between the pressure bars to cut the nuts.

2. A chute, a feed wheel below the chute, a channel adjacent the feed wheel, a cutter over the channel, a transfer wheel adjacent the channel for transferring blanks from one channel to the next, a second channel at an angle to the first channel. a second" feed wheel in line with the second channel, cutter over the second channel, a transfer wheel adjacent the second channel for transferring blanks from one channel to the next, a third channel at an angle to the first two channels, a third feed wheel in line with the third channel, and a cutter over tl e third channel.

3. A channel, means for feeding nuts in cut;

lateral contact with each otherthrough the channel, a cutter acting on the nuts at one,

point in the channel, asecond channel atan angle to the first channel, means for turning the cut nuts at an angle and feeding them through thesecond channel, means for cut.- ting the nuts in the second channel at an angle to the first cut, a third channel atan angle to the, other channels, means for again turning the cut nuts and feeding them through the third channel, means for cutting the nuts in the third channel at an angle to the other cuts, and means on i the same side of the nuts asthe cutters for holding the nuts from tipping when being 4. A cutter, means for feeding nuts past the cutter, means for turning the nuts, a second cutter,-mea ns for feeding the turned nuts past the second cutter, 111631181 01 again turning the nuts, a :third vcu'tter, means. for I feeding the nuts as finally turned past the the third cutter, and means on the same-side.

of the nuts as the. cutters for holding the nuts from tipping when acted on bythecutters. I

5. A chute for holding nuts, awheel below the chute having pocketsto receive the nuts in-con'tact with each other at 011011301111 removable sides for the-pockets, a channeh a guide plate extending into the channel and over the wheel between the sides of the pockets and forming the bottom of the pockets, means for turning the wheel to force the nuts over the guide plate and through the channel in contact with each other, retaining plates loosely holding the nuts in the channel and means for cutting the nuts on one diameter.

6. A chute for holding nuts, a feed wheel below the chute, a channel adjacent the feed wheel, a cutter over the channel, means for turning the nuts, a second channel at an angle to the first channel, a second feed wheel in linewith the second'channel, a cutter over the secondchannel,means for turning the nuts, a third channelat an angle to the first two channels, a third ifeed wheel in line with the third channel, and cutter over the third channel.

7. A channel, means for throughthe channel. a cutter acting on the upper sides of nuts at one point in the feeding nuts channel, a second channel at an angle to the first channel, means for turning the cut nuts at an angle and feedingthem through the second channel, and meansfor cutting the nuts in the second channel at an angleto the first cut.

8. A chute, channel adjacent the feed wheel, a cutter over the channel, a transfer wheel adjacent the channelfor transferring blanks from one channel to the next, a second channel at anv angle to the first channel, a second feed wheel a feed wheel belowthe chute,

"grees to the first channel, means for turning the cut nuts and feeding them through the second channel, means for cutting the nuts 1n the second channel at an angle of sixty degrees to the first cut, a third channel at an angle of sixty degrees to the second channel, means for again turning the cut nuts and feeding them through the third channel,

and means for cutting the nuts in the third channel at an angle of sixty degrees to the other cuts.

10. A chute, a feed wheel below the chute grasping the nuts by their side walls, a channel adjacent the feed wheel, a cutter ove the channel, a transfer wheel adjacent the channel and grasping the nuts by their side walls, for transferring blanks from one channel to the next, a second channel at an angle to the first channel, a second feed wheel in line with the second channel, a cutter over the second channel, a transfer wheel adjacent the second channel for transferring blanks from one channel to the next, a third channel at an angle to the first two channels, a third feed wheel in line with the third channel, and a cutter over the third channel.

11. A channel, means for feeding hexagonal nuts in lateral contact with each other through the channel, a cutter acting on the nuts at one point in the channel, a second channel at an angle of sixty degrees to the firstchannel, means for turning the cut nuts and feeding them through the second channel, means for cutting the nuts in the second channel at an angle of sixty degrees to the first cut, a third channel at an angle of sixty degrees to the other channels, means for again turning the cut nuts and feeding them through the third channel, means for cutting the nuts in the third channel at an angle of sixty degrees to the other cuts, and means on the same side of the nuts as the cutters for holding the nuts from tipping when being cut.

12. A chute, a feed wheel below the chute grasping the nuts by their side walls, a

channel adjacent the feed wheel, a cutter adjacent the channel, a transfer wheel adjacent the channel for transferring blanks from one channel to the next, a second channel at an angle to the first channel, a second feed wheel in line with the second channel,-

a cutter'adjacent the second channel, a.

transfer wheel adjacent the second channel fo transferring blanks from one channel to the next, a third channel at an angle to the first two channels, a third feed wheel in line with the third channel, a cutter adjacent the third channel, and holding means adjacent the cutters.

. 13. A channel, means for feeding hexagonal nuts in lateral contact with each other through the channel, a cutter acting on the upper sides of the nuts at one point in the channel, a second channel at an angle of sixty degrees to the first channel, means for turning the cut nuts and feeding them through the second channel, means for cutting the upper sides of the nuts in the second channel at an angle of sixty degrees to the first cut, and means for holding the nuts fromtipping when being cut. 14. A cutter, means for feeding nuts past the cutter, means for holding the nuts from tipping when acted on by the cutter, means for turning the nuts, a second cutter, means for feeding theturned nuts past the second cutter, means for holding the nuts from tipping when acted on by the second cutter, means for again turning the nuts, a third cutter, means for feeding the nuts as finally turned past the third cutter, and means on the same side of the nuts as the cutters for holding the nuts from tipping when acted on by the third cutter.

15. A chute for holding nuts, a wheel below the chute having pocketsto receive the nuts in contact with each other at one point, removable sides for the pockets, a channel, a guide plate extending into the channel and' over the wheel between the sides of the pockets and forming the bottom of the and a transfer wheel for transferring the nuts from one channel to the following channel for the purpose of rearranging the nuts so as to feed them properly past the following cutter and form slots therein at a predetermined angle to the slots cut by the preceding cutters.

17. A chute for holding nuts, a wheel below the chute having pockets to receive the nuts in contact with each other at one point, a channel, a guide plate extending intothe channel, and over the wheel and forming the bottom of the pockets, means for turning the wheel to force the nuts over the guide plate and through the channel in contact with each other, and means for cutting the nuts on one diameter.

18. A cutter, means for feeding nuts past the cutter, means on the same side of the nuts as the cutters for holding the nuts from tipping when acted on by the cutter, a second cutter, means for feeding the nuts past the second cutter, means for holding the nuts from tipping when acted on by the second cutter, a third cutter, means for feeding the nuts past the third cutter, and means for holding the nuts from tipping when acted on by the third cutter.

19. A chute for holding nuts, a wheel below the chute having pockets to receive the nuts, removable sides for the pockets, a channel, means for turning the wheel to force the nuts through the channel, means for cutting the nuts on one diameter, and means for holding the nuts from tipping while being cut.

20. A chute for holding nuts, a wheel below the chute having pockets to receive the nuts in contact with each other at one point, removable sides for the pockets, a channel, a guide plate extending into the channel and over the wheel between the sides of the pockets and forming the bottom of the pockets, means for turning the wheel to force the nuts over the guide plate and through the channel in contact with each other, retaining plates loosely holding the nuts in the channel, means for cutting the nuts on one diameter, and means for turning the nuts and cutting them on another diameter. I

21. A chute containing nuts, a feed wheel receiving the nuts from the chute, removable teeth in the wheel to engage the nuts, a guide plate extending over the wheel and between the teeth, a channel supporting the guide plate through which the nuts are forced by the feed wheel, retaining plates loosely holding the nuts in the channel, pressure bars supported adjacent the channel to hold a nut, a cutter'projecting between the pressure bars to cut the nuts, a spacing bar in the end of the channel, a transfer wheel adjacent the spacing bar engaging the nuts to turn them, a second channel at an angle to the first channel, a second feed wheel in line with the second channel to receive the nuts from the transferwheel;

andfeed them through the second channel,

retaining plates loosely holding nuts in the second channel, pressure bars supported adjacent the second channel to hold. a nut, and a cutter projecting between the pressure bars to cut the nuts.

22. A chute containing nuts, a feed wheel receiving the nuts from the chute, a guideplate extending over the wheel and between the teeth, a channel supportlng the guidecent the spacing bar engaging the nuts to turn them, a second channel at an angle to the first channel, a second-feed wheel in line with the second channel to receive the nuts from the transfer wheel andfeed them the nuts are'forced by the feed Wheel, re-

taining plates loosely holding the nuts in the channel, pressurebars supported adjacent the channel to hold a nut, a cutter projecting between the pressure bars to cut the nuts, a spacing harm the end of the channel, a

transfer wheel adjacent the spacing bar en gaging the nuts to turn them, a second channel at an angle to the first channel, a second feed wheel in line with the second channel to receive thenuts from the transfer wheel and feed themv through the second channel,

a guideplate extending between the channels and over the second feed wheel, retaining plates loosely holding nuts in the"sec-' 0nd channel, pressure bars supportedadjacent the second channel to hold'a nut, a

cutter projecting between the'pressure bars to cut the nuts, a spacing bar in the end of the second channel, a transfer wheel adja cent the last mentioned spacing barengaging the nuts to turn them, a third channel at an angle to the first two channels, a third feed wheel in line with the third channel to receivethe nuts from thetransfer wheel and feed them through the third channel, a guide plate extending from the second tothe third channel and over the third feed wheel, retaining plates loosely'holding nuts in the third channel, pressure bars supported adjacent the :third channel'to'holda nut and a cutter projecting between the pressure'bars to cut the nuts.

24. A chute containing nuts, a feed wheel receiving the nuts from the chute, teeth in" the wheel to engage the nuts, a guide plate extending over the wheel and between the teeth, achannel supporting the guide plate through which the nuts are forced by the feed wheel, pressure bars supported adj acent the-channel to hold a nut, a cutter project ingbet-ween the pressure bars to cutthe nuts.-

a spacing bar in the end of the channel, a transfer'wheel adjacent the spacing bar engaging the nuts to turn them, a second channel at an angle to the first channel, a second feed wheel in line with the second channel to receive the nuts from the transfer wheel and feed them through the second channel, pressure bars supported adjacent the second channel to hold a nut, a cutter projecting between the pressure bars to cut the nuts, spacing bar in the end of the second channel, a transfer wheel adjacent the last mentioned spacing bar engaging the nuts to turn them, a third channel at an angle to the first two channels, athird feed wheel in line with the third channel to receive the nuts from the transfer wheel and feed them through the third channel, pressure bars supported adjacent the third channel to hold a nut, and a cutter projecting between the pressure bars to cut the nuts.

25. A channel, means for feeding nuts through the channel, a transfer wheel to re ceive and turn the nuts as they leave the channel. and a second channel into which the nuts pass from the transfer wheel.

26. A channel, means for feeding nuts through the channel, means for cutting the nuts in the channel, a second channel, means for cutting the nuts in the second channel,

and a transfer wheel to receive the cut nuts from the first channel and turn them and deliverthe turned nuts to the second channel.

27. A chute for holding nuts, an adjusta- -ble feed wheel for receiving the nuts from the chute and adjustable as to position for nuts of different sizes, and a channel through which the wheel feeds the nuts.

28. Two channels for nuts, a transfer wheel for transferring nuts from one channel, and an adjustable wheel for receiving the nuts from the transfer wheel and feeding them through the second channel.

29. A chute for holding nuts, a feed Wheel having pockets for receiving the nuts from the chute, a channel, a guide plate extending into the channel and over the wheel and forming the bottom of the pockets, and means for turning the wheel to force the nuts over the guide plate and through the channel.

30. Two channels for nuts, a transfer wheel for transferring nuts from one channel, a feed wheel having pockets'for receiving the nuts from the transfer wheel, a guide plate extending into both channels and over the wheel and forming the bottom of the pockets, and means for turning the feed wheel to force the nuts over the guide plate and through the second channel.

31. A channel for nuts, a transfer wheel for transferring nuts from the channel, adjustable side pieces in the channel to cause the nuts to enter the transfer wheel properly and a second channel into which the nuts pass from the transfer wheel.

32. In a machine for castellating nuts, the

operating in the guideway, and a wheel hav-J ing teeth to receive and act on nuts to introduce same in and form a row in the guideway, whereby'the cutter successively acts on the nuts. i

In a machine for castellating nuts, the combination of a guideway, a rotary cutter operating in the guideway, and afeed wheel having teeth shaped to consecutively feed individual nuts to the guideway to form a row and simultaneously move the row to the cutter.

34. In a machine for castellating nuts, a guideway, a cutter operating above the guideway, a feeding means for forcing the nuts along the guide-way and past the cutter, and a chute for delivering the nuts successively to the feeding means.

1-35. In a machine for castellating nuts, a guide-way formed to receive and guide the nuts in a row formation, a positively driven cutter operating above the guide-way, an inclined chute, and a feeding means comprising a positively driven tooth wheel to select the nuts singly from the chute and deliver them to and force them lengthwise the guideway.

'36. In a machine for castellating.nuts,the

combination of a. guideway, and a. cutter operating in the guideway, and a feed wheel for introducing a row of nuts'to the guide way and imparting continuous movement to the nuts, whereby the nuts are successively cut by the cutter. 7

3'7. A channel, means for passing nuts through the channel in contact with each other, means inserted between certain of the nuts for rearranging the nuts so arranged that there is continuous contact between the stream made up of the nuts and the inserted means.

38. In a machine formilling' nuts, a rigid seat for the nut, a rotary cutter operating on the nuts on the side opposite the seat, and a springpressed pressure bar adjacent the cutter for holding the nut from tipping while being cut.

89. In a machine for milling nuts, a rigid seat for the nut, a rotary cutter operating on nuts.

JAS. F. PATTONI JOHN E. MCALLISTER. c