US6131A - Improvement in machinery for turning right and left lasts - Google Patents
Improvement in machinery for turning right and left lasts Download PDFInfo
- Publication number
- US6131A US6131A US6131DA US6131A US 6131 A US6131 A US 6131A US 6131D A US6131D A US 6131DA US 6131 A US6131 A US 6131A
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- United States
- Prior art keywords
- frame
- centers
- model
- cutter
- lasts
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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- 239000000463 material Substances 0.000 description 16
- 238000010276 construction Methods 0.000 description 6
- 210000001847 Jaw Anatomy 0.000 description 4
- 239000002184 metal Substances 0.000 description 4
- 229920000832 Cutin Polymers 0.000 description 2
- SLZWEMYSYKOWCG-UHFFFAOYSA-N Etacelasil Chemical compound COCCO[Si](CCCl)(OCCOC)OCCOC SLZWEMYSYKOWCG-UHFFFAOYSA-N 0.000 description 2
- 102100000672 SMPX Human genes 0.000 description 2
- 108060007673 SMPX Proteins 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 2
- 210000003371 Toes Anatomy 0.000 description 2
- 230000004075 alteration Effects 0.000 description 2
- 230000001788 irregular Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000000284 resting Effects 0.000 description 2
- 239000010959 steel Substances 0.000 description 2
- 239000002023 wood Substances 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q35/00—Control systems or devices for copying directly from a pattern or a master model; Devices for use in copying manually
- B23Q35/04—Control systems or devices for copying directly from a pattern or a master model; Devices for use in copying manually using a feeler or the like travelling along the outline of the pattern, model or drawing; Feelers, patterns, or models therefor
- B23Q35/08—Means for transforming movement of the feeler or the like into feed movement of tool or work
- B23Q35/10—Means for transforming movement of the feeler or the like into feed movement of tool or work mechanically only
- B23Q35/109—Means for transforming movement of the feeler or the like into feed movement of tool or work mechanically only with a continuously turning pattern
Definitions
- rIhese consist of a metal pin having one end pointed, forked, or chisel-shaped, as may be best adapted to hold on to the last or rough materia-l, the'other end furnished with a concave center to receive the point of an vadjust-ingscrew, which is held in place upon the beam by a saddle in the manner represented.
- the center c is that which is represented in the drawings as having one end of the model-last within it, while the two centers on either side are ⁇ for holding one end of the rough materials. Immediately opposite these centers are others to match, placed within the stationary beam a. These opposite centers are the driving-points.
- Each center is driven by a bevel-wheel ofthe saine size, and consequently must rotate alike with respect to each complete revolution, but are not required always to rotate in the same direction; but, on the contrary, I give at times different directions to these centers, making some revolve to the right and some to the left at the same time, although the time each takes tov make a complete revolution is the same.
- rIhe cutters are suspended in a frame of peculiar construction, whereby three motions can be given to them, one of which is swinging or vibratory. Another is sliding, and is at right angles to the vibratory motion, and another,whieh is rotary. 'The sliding motion is for the purpose of carrying the cutters along the surface of the rough material.
- the vibratory motion is for the purpose of causing them to follow the form of the model, and the rotary motion is for the purpose of producing the cutting action.
- rIhe frame is constructed by iirst placing a bed upon shears or slide-rods secured at each end of the frame, as seen at f1? i, grooves being cut in each end of the bed to keep it rmly in position while it is permitted to slide along the shears t' i.
- the beam Z is suspended ing cutter-beam Z.
- the cutter-wheels are seen at m m', and consist of aseries of steel bows, sharpened on their edges 4and riveted or screwed around the circumference of circular metal disks. These are suspended on a shaft in a saddle attached at each end to the beam Z. The cutting-wheels must be hung on a line with each other.
- a space is cutin the lower face of the beam Zy to insert the governor or friction-point n. Its position is such as to bear always upon the surface of the pattern, which is suspended on the centers j' c.
- the surface of the governor is always kept upon the model or pattern by means of the weight seen in the figure; or a spring or other like power may be used instead, which will yield to the vibrations of the beam.
- the operation is as follows: It' the machine is set to turn lasts, a finished one for a model is placed between the centers j' c, so that it will receive the action of the governor n. A piece of wood, chopped out roughly to the right dimensions, is next inserted between the centers g y. A second like piece is fixed in the centers c 0. As the machine is represented in the drawings, the gearing is set for turning a pair of lasts from one pattern or model-that is, a right and left last.
- One piece of the rough material must be put in the centers in the same position as the model 5 but the piece for the opposite or left last (the model being a right last) must be placed in the centers, so that its bottomwill' be turned up, as seen in the center c, when the bottom of the model is turned down, as seen in c, and it will rotate also in a contrary direction from the pattern.
- the cutter-frame Z having been drawn forward to the movable bar b and t-he grippers o o adjusted upon the feeding-screw, the cutting commences, the cutters advancing first upon the toes of 'the lasts and forming them, the model-last and the rough materials all revolving in the order previ ously described.
- the beam Z is made to vibrate back and forth in accordance therewith, the face of the governor always pressing upon the surface of the model by reason of the weight attached to the beam Z.
- the cutters are made to recede or advance upon the rough material, thereby cutting -away the stuff to produce depression on its surface, or receding and leaving elevations in exact accordance with those elevations and depressions upon the model.
- the frame is meanwhile slowly passing along toward the beam a, thus insuring the passage of the governor and cutters over the whole materials. Once going over produces the work iinished, and the pieces may be then removed and other rough material introduced, as before.
- the shaft (Z may alsol be lengthened and carried to any desirable extent, so as to introy cute between the parallel beams a and b a number of cutter-wheel frames and centers, so as to turn by one operation lasts, spokes, and gun-stocks, and all shapes capable of being wrought by the machine.
- I can also, without any alteration whatever, introduce long or short things to be turned, so as to embrace avery extended range of objects, as I can remove the distance between my independent centers to an indefinite extent, and can cause my cutters to pass readily over such space.
- I can one minl l l bination of the vibra-ting beam and cutter- Wheels with the revolving centers7 so as to procluee at one time and from one pattern a right and left last, or e series of right and left lasts,
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- Engineering & Computer Science (AREA)
- Automation & Control Theory (AREA)
- Mechanical Engineering (AREA)
- Milling Processes (AREA)
Description
lhvrrnn STATns Arniv'r ier-ienG 'SAMUEL HUNTINGTON, OF MIDDLEFIELD, NEWr YGRK.
IMPROVEMENT .lN MACHINERY FOR TURNING RIGHT AND LEFT LASTS, &C., FROM THE SAME PATTERN. A
Specification forming part of Leiters Patent No. @,llll, dated February 20, 1R49.
.To aZZ whom it may concern.-
Be it known that I, SAMUEL HUNTINGTON, et' Middlefield, in the county of Otsego and State of New York, have invented a new and Improved Machine for Turning Irregular Shapes; and I do hereby declare the following to be a full, clear, and exact description of t-he same, reference being had to the annexed drawings, vmaking a part ofthis specification, in which- Figure l is a perspective view oi' the front of the machine. Fig. 2 is a perspective view of back of the machine. Fig. 3 is an elevation of the cutter-frame. Fig. L is an elevation of another form of cutter-frame.
Similar letters referto similar parts through- 'models revolve, and also hold the Iced-motion. The beam 7; is held in place by a screw and bolt placed at each end,which hooks onto the cross-frame timber, as represented. To prevent the possibility of the beam slipping back by vreason of pressure upon the turningcenters, I add at each end a stop or pawl, which works in a rack upon the frame.
Through the beam there are three holes for bearings l'or the revolving centers. rIhese consist of a metal pin having one end pointed, forked, or chisel-shaped, as may be best adapted to hold on to the last or rough materia-l, the'other end furnished with a concave center to receive the point of an vadjust-ingscrew, which is held in place upon the beam by a saddle in the manner represented. The center c is that which is represented in the drawings as having one end of the model-last within it, while the two centers on either side are `for holding one end of the rough materials. Immediately opposite these centers are others to match, placed within the stationary beam a. These opposite centers are the driving-points. In construction they have a chisel or forked point, in order to prevent the slipping of the n'iaterials placed upon them. Immediately behind this point a collar is turned up to form a shoulder, bearing upon the end of the box in which it plays, and on the opposite end a key-seat is eut, to receive a bevel-wheel. These bevel-wheels are driven by bevel-pinions on a horizontal shaft, d, suspended outside the frame e. Each center is driven by a bevel-wheel ofthe saine size, and consequently must rotate alike with respect to each complete revolution, but are not required always to rotate in the same direction; but, on the contrary, I give at times different directions to these centers, making some revolve to the right and some to the left at the same time, although the time each takes tov make a complete revolution is the same. In order to give these different motions, I place an additional bevel-pinion on the shaft, so that it will gear into the opposite side of the main wheel by sliding it along, as seen at c. The pinion c being thrown out of gear and the pinion c-put in gear on the opposite side, reverses the motion.
In the drawings, f and g are revolving in the same direction, but e in a contrary direci tion. The result of this will be the prediletion of lasts frein the rough material on the centers c and g, right and left to each other, the pattern-last being on f. The fourth bevel-wheel, 71, in a 'is for the production of the sliding motion in the cutter-frame.
rIhe cutters are suspended in a frame of peculiar construction, whereby three motions can be given to them, one of which is swinging or vibratory. Another is sliding, and is at right angles to the vibratory motion, and another,whieh is rotary. 'The sliding motion is for the purpose of carrying the cutters along the surface of the rough material. The vibratory motion is for the purpose of causing them to follow the form of the model, and the rotary motion is for the purpose of producing the cutting action.
rIhe frame is constructed by iirst placing a bed upon shears or slide-rods secured at each end of the frame, as seen at f1? i, grooves being cut in each end of the bed to keep it rmly in position while it is permitted to slide along the shears t' i. Two standards, k 7s, arise from near each end of the bed, a slit being eut through them to receive and guide the vibrat- The beam Z is suspended ing cutter-beam Z.
by rods to the ends of a horizontal beam resting upon the uprights 7c lr.
The cutter-wheels are seen at m m', and consist of aseries of steel bows, sharpened on their edges 4and riveted or screwed around the circumference of circular metal disks. These are suspended on a shaft in a saddle attached at each end to the beam Z. The cutting-wheels must be hung on a line with each other.
A space is cutin the lower face of the beam Zy to insert the governor or friction-point n. Its position is such as to bear always upon the surface of the pattern, which is suspended on the centers j' c. The surface of the governor is always kept upon the model or pattern by means of the weight seen in the figure; or a spring or other like power may be used instead, which will yield to the vibrations of the beam.
Between the two posts 7t- 7; upon the bed of the frame there is a iixture for connecting the frame with the screw, in order to get the sliding motion upon the shears Z This consists of a jointed gripper, 0 0, which has on each halt' of its jaws afemale screw cut to match t-he thread upon the male screw of the feeder attached to the bevel-wheel lz.. Opening the jaws disconnects the frame from 71- closing connects them. It is usual to draw the cutter-frame back to starting-place by hand when ready to introduce new pieces to be turned; but this is not necessary. In order, however, to reverse the motion by the screw and grippers so as to accomplish this, an additional bevel-pinion wheel must be set upon the driving-shaft on the opposite side of h, the disengagement of the first bevel-pinion and the engagement of the second effecting the operation. The cutter-wheels are driven by belts running from drums beneath the frame to pulleys upon their shafts, as represented. Other suitable gearing'drivcs the shaft (Z, as shown in the drawings.
The operation is as follows: It' the machine is set to turn lasts, a finished one for a model is placed between the centers j' c, so that it will receive the action of the governor n. A piece of wood, chopped out roughly to the right dimensions, is next inserted between the centers g y. A second like piece is fixed in the centers c 0. As the machine is represented in the drawings, the gearing is set for turning a pair of lasts from one pattern or model-that is, a right and left last. One piece of the rough material must be put in the centers in the same position as the model 5 but the piece for the opposite or left last (the model being a right last) must be placed in the centers, so that its bottomwill' be turned up, as seen in the center c, when the bottom of the model is turned down, as seen in c, and it will rotate also in a contrary direction from the pattern. The cutter-frame Z having been drawn forward to the movable bar b and t-he grippers o o adjusted upon the feeding-screw, the cutting commences, the cutters advancing first upon the toes of 'the lasts and forming them, the model-last and the rough materials all revolving in the order previ ously described. As the unequal faces of the model are brought in contact with the governor n, the beam Z is made to vibrate back and forth in accordance therewith, the face of the governor always pressing upon the surface of the model by reason of the weight attached to the beam Z. As the inequalities of the model are passed over by the governor, the cutters are made to recede or advance upon the rough material, thereby cutting -away the stuff to produce depression on its surface, or receding and leaving elevations in exact accordance with those elevations and depressions upon the model. The frame is meanwhile slowly passing along toward the beam a, thus insuring the passage of the governor and cutters over the whole materials. Once going over produces the work iinished, and the pieces may be then removed and other rough material introduced, as before.
It will readily be seen that from the construction of .my machine, and by means of the numerous independent centers, and the position and arrangement of the cutter-wheel frame, my invention may be extended with facility, so as to embrace and operate upon a` great variety of objects and shapes at once, and thus produce a large amount of work. In the machine as shown in the drawings hereunto annexed it will be readily seen that the cutters can be made to operate on both sides of the wheel or disk upon which they are fastened by introducing more centers in the frame and gearing on the shaft. The frame may also be elongated, so as to lengthen the beam Zand add a greater number of cutter-wheels, so as to turn from one model a great number of pairs of lasts within the time required to turn one. The shaft (Z may alsol be lengthened and carried to any desirable extent, so as to introy duce between the parallel beams a and b a number of cutter-wheel frames and centers, so as to turn by one operation lasts, spokes, and gun-stocks, and all shapes capable of being wrought by the machine.
Instead of hanging the vibrating beam Z, I contemplate causing it to slide on friction-rollers centered in the slots in the upright posts k k. I also can vary the operation by substitutin g for-thc vibratory beam Z a lever, as seen in Fig. 4. This is hung centrally upon the foundation-plate of the cutter-traine, the model acting on one end to make the vibrations, while the cutter-wheel is set upon the opposite one, as represented. This mode enables me to make but one copy of the model at a time, and is therefore unequal to the vibrating beam before described.
In my machine I can also, without any alteration whatever, introduce long or short things to be turned, so as to embrace avery extended range of objects, as I can remove the distance between my independent centers to an indefinite extent, and can cause my cutters to pass readily over such space. Thus I can one minl l l bination of the vibra-ting beam and cutter- Wheels with the revolving centers7 so as to procluee at one time and from one pattern a right and left last, or e series of right and left lasts,
or work of like character, substantially in the manner set forth lierein.
SAMUEL HUNTINGTON.
lVitnesses:
JOSEPH l?. PIRSSON, J. L. KINGSLEY.
Publications (1)
Publication Number | Publication Date |
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US6131A true US6131A (en) | 1849-02-20 |
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US6131D Expired - Lifetime US6131A (en) | Improvement in machinery for turning right and left lasts |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070080718A1 (en) * | 2003-12-17 | 2007-04-12 | Stojanovic Vladimir M | High speed signaling system with adaptive transmit pre-emphasis |
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- US US6131D patent/US6131A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070080718A1 (en) * | 2003-12-17 | 2007-04-12 | Stojanovic Vladimir M | High speed signaling system with adaptive transmit pre-emphasis |
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