US410777A - Slab-sawing machine - Google Patents

Slab-sawing machine Download PDF

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US410777A
US410777A US410777DA US410777A US 410777 A US410777 A US 410777A US 410777D A US410777D A US 410777DA US 410777 A US410777 A US 410777A
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shaft
frame
crank
saw
slab
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27LREMOVING BARK OR VESTIGES OF BRANCHES; SPLITTING WOOD; MANUFACTURE OF VENEER, WOODEN STICKS, WOOD SHAVINGS, WOOD FIBRES OR WOOD POWDER
    • B27L5/00Manufacture of veneer ; Preparatory processing therefor
    • B27L5/08Severing sheets or segments from veneer strips; Shearing devices therefor; Making veneer blanks, e.g. trimming to size
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/0006Cutting members therefor
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/444Tool engages work during dwell of intermittent workfeed
    • Y10T83/4594Dwell caused by clamping or blocking work during continuous operation of feed means
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/647With means to convey work relative to tool station
    • Y10T83/6569With means to stop work conveyor

Definitions

  • N4 PETERS Phowulm n lm, washin mn, Dv C.
  • My invention relates to an improvementin slab-sawing machines, commonly known as slab-Slashers, and has for its object to provide a machine in which the material will be automatically fed to the saw for each successive out; and a further object of the invention is to provide a means whereby the slab will be automatically prevented from feeding lengthwise while the saw is in the cut; and the object of the invention is also to provide a means for holding the slab stationary while being cut and means for releasing the slab to be fed forward for another cut.
  • Figure 1 is a plan view of the machine.
  • Fig. 2 is a side elevation
  • Fig. 3 is a partly In carrying out the invention the frame is adapted to extend partially below the floorline 11, and consists of a series of cross-beams 12 and vertical standards 13, bolted or otherwise secured together to form a rectangular open body 14, from the sides of which body at the front horizontal wings 15 and 16 are respectively projected, supported in any approved manner.
  • the wing 15, adapted to receive the material to be cut, is longer than the wing 16, and is provided at intervals in its length with transverse carrying-rollers 17, having secured to their forward extremity a sprocket-wheel 18.
  • the shorter wing 16 is also provided with a carrying roller or rollers having a sprocket-wheel attached thereto, and at the extremity of the said wing 16 a transverse bumperbe'a1n 19 is secured, as best shown in Fig. 1.
  • a drive-shaft 20 is j ournaled, provided at one projecting end with a drive-pulley 21, and at the other extremity with a small pulley 22.
  • a large pulley 23 is also keyed or otherwise attached to the driveshaft, aligning the center of the main frame.
  • a saw frame is pivoted upon the driveshaft, consisting of two perpendicular standards 24, through the lower end of which the main shaft passes, having journaled in their upper ends a short shaft 25, having secured thereto between the standards a pulley 26, belted to the pulley 23, and a circular saw 27, fixed upon the outer end contiguous to the short wing 16, as best shown in Fig.
  • the saw is adapted to be carried by the swinging frame on or near a radial line from the main shaft.
  • the belt connecting the frame and main shaft is kept at nearly the same tension while the saw is being fed to the material.
  • 'a shaft 28 is journaled, provided with a central crank-arm 29, a large friction-pulley 30, secured thereto at one side of the crank-arm, and an essentially hook-shaped cam 31, keyed thereto near said friction-pulley, as best shown in Fig. 3. Both ends of the crankshaft 28 are journaled in fixed bearings.
  • the swinging saw-frame is reciprocated from the crank-shaft by means of a forked pitman 32, the rear or straight one of which is loosely mounted upon the crank-arm of the shaft 28, the members of the bifurcated end being pivot-ed, respectively, to the several standards 24 of the swinging frame, as best shown in Figs. 1 and 2.
  • a parallel straight shaft 33 is journaled, one end of the said shaft being held to revolve in fixed bearings projected from the body-frame and the other end in a movable bearing 34, consisting ofa horizontal beam pivotedto the body-frame, as best illustrated in Fig. 3.
  • adjustable shaft 33 Upon the adjustable shaft 33 a small friction-pulley is fixed, adapted for frictional contact with the larger friction-pulley 30 upon the crank-shaft.
  • the adjustable shaft 33 is also provided at one end with a pulley 36, belted to the drive or main shaft pulley 22.
  • the two friction-pulleys are normally out of contact and are brought together by the manipulation of a lever 37, fulcrumed beneath the floor-line upon the body-frame, as best shown in Fig.
  • the lever 37 extends beyond the body-frame at front and rear, being connected at the rear end with the adjustable shaft-bearing 31 by a link 38, and provided at the forward end with an attached rod 30, projecting upward through the floor, terminating in a footplate 10.
  • a clamping arm or dog 11 is pivoted in lugs 42, integral with the upper portion of the body-frame at one side of the rear, consisting of an arm extending forwardly over the bodyframe to the left of the saw, provided with a weight 12 at the top of the forward end and a series of teeth 43 upon the under side, purposed to engage with the slab, as shown in Fig. 3.
  • the forward end of the dog 41 may be bent, if desired, to readily grasp a circular contour.
  • an angle-bar 11- is attached through the medium of a crossbar 15, or the said cross-bar and angled bar may be integral with the dog.
  • the horizontal member of the bar is parallel with the dog, and the vertical member of the bar extending downward within the body-frame is provided at the extremity upon one side with a horizontal pin -16.
  • the pin 46 is adapted for contact with the rear end of a lower dog 4:7, fulcrumed at or near the center upon a vertical standard 18, constituting a portion of the body-frame, as best shown in Fig.
  • the lower dog which is to the right of the saw, is straight and provided atthe forward end with attached teeth 49, purposed to engage with the under side of the slab.
  • a spring 50 is attached to the lower dog and also to the frame, the spring serving the same purpose as the weight upon the upper dog-namely, to keep the dogs in contact with the slab until purposely disengaged.
  • the two dogs are actuated from the crankshaft 28. This is effected by the hook-cam 31 lifting and remaining a predetermined time in contact with a vertical finger 51, proj ected downward from the rear end of the upper dog, as best shown in Fig.
  • the position of the cam 31 upon the crankshaft 28 is so calculated as that it will hold the dogs disengaged from the slab through the medium of the finger 51 while the crank-arm 29 is in its backward throw and the saw traveling from and toward the slab. ⁇ Vhen, however, the slab has traveled forward for another cut and just previous to the saw entering the same, the cam releases the finger and the dogs again resume their normal position.
  • a safety-latch 52 is provided, consisting of a vertical bar recessed at the upper end to receive a pin 5% upon the upper dog, as shown in positive lines, Fig. 2, and dotted lines, Fig. 3.
  • the rod is normally held in engagement with the pin 54 by a spring 55, and the lower end of the latch 52 is connected by a bar 56 with one end of a lever 57, pivoted to the base of the body-frame, as best shown in Fig. 2-3, the said lever being provided with a lug 58 upon one side, having an inclined upper end, which lug is adapted for engagement with a pin 59, secured to the foot-lever 37.
  • the latch-rod 52 engages with the pin 54 at all times, and when the upper dog is elevated the recess in the latch-bar receives the pin and holds the dogs in an open position.
  • the dogs are not released until the foot-lever 37 is depressed to throw the friction-rollers 30 and 35 in contact when the pin 59 is brought in engagement with the lug 58, which, carrying the lever 57 forward, presses the latch-bar backward, causing it to assume the position illustrated in positive lines, Fig. 3, whereby the dogs are permitted to approach one another.
  • a shaft 60 is journaled in the body-frame at the right-hand side, extending from front to rear, from which the carrying-rolls 17 are driven, which shaft is provided upon the forward extremity with a sprocket-wheel G1, the sprocket-wheel 61 and likewise the sprocket wheels of the carrying-rollers being purposed to engage with an endless chain belt 62, the said chain belts engaging also with one or more idlers (33, as best shown in Fig. 2. At or near the rear end the shaft 62 is provided with a friction-pulley 64.
  • a second shaft 05 parallel with the shaft 62, is journaled in fixed bearings at the for ward end, the rear end being journaled in a pendent beam 66, pivoted to the body-frame.
  • This second shaft 65 which is adjustable, is provided with a friction-pulley G7, purposed to engage with the similar pulley 6i, and an ordinary pulley 68, belted to a pulley (59, secured to the drive-shaft 20, as shown in Fig.
  • an adjusting-shaft 70 is held to revolve, provided with a crank-arm 71 at the rear end and a lever 72 at the forward end.
  • the crank-arm 71 is united with the forward end of an essentially-vertical lever 73, pivoted at the rear of the body-frame by a connecting-rod 74, as shown in Fig. 1, to which lover a lug 7 5 is secured, adapted for time contact with a finger 76, rigidly secured to the shaft 28.
  • the movement of the linger 76 is so timed that it will engage with the lever 73 just as the saw recedes from the out and set the carrying-rollers in motion to carry the slab onward for another cut.
  • the lever 72 is turned to the right. or opposite to the position shown, whereupon the shaft 65 will be so far removed from the shaft 60 that the action of the finger 76 upon the lever 73 will not bring the two friction-pulleys 64 and 67 in engagement.
  • crank-arm 71 a crank-arm 71
  • lever 73 engaging the finger of the crank-shaft
  • rod 74 connecting the lever and adjustingshaft
  • the combination with the main frame, the carrying-rollers mounted thereon, the shaft 60, journaled in the main frame and geared with the carryin g-rolle, s, and the friction-pulley 64, mounted on the said shaft, of the shaft 65, the frictionpnlley 67,1nounted thereon, the beam 66,pivoted to the main frame and carrying one end of the shaft (35, the shaft 70, jonrnaled in the main frame, having a crank-arm 71 and a handle 72, the shaft 28, provided with a cam 76, the lever 7 3, adapted to engage the cam 7 6, and a rod connecting the lever 7 3 and crankarm 71, all arranged substantially as and for the purpose described.

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Forests & Forestry (AREA)
  • Manufacturing & Machinery (AREA)
  • Wood Science & Technology (AREA)
  • Mechanical Engineering (AREA)
  • Processing Of Stones Or Stones Resemblance Materials (AREA)

Description

3 Sheets-Sheet 1.
(No Model.) I
D. S; ABBOTT. SLA]? SAWING MACHINE. No. 410,777. Patented Sept. 10, 1889.
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' vk J 11 $5 a WITNESSES: INVENTOR:
2mm .MM g 'g ATTORNEYS.
N4 PETERS, Phowulm n lm, washin mn, Dv C.
"(No l a Sheets-Sheet 2.
D. S. ABBOTT.
SLAB SAWING MACHINE.
No. 410,777. Patented Sept. 10, 1889..
ATTORNEYS.
NY PETERS, Fhalo-Lxmcgmphur. Washinglufl. u. c.
(No Model.) 3 Sheets-Sheet 3.
D. S. ABBOTT. SLAB SAWING MACHINE.
Patented Sept. 10, 1889.
llVVE/VTOR: a2 5. WMK
WITNESSES:
ATTORNEYS.
N. PETERS, Phm-Lium m m. (aslfingium D50.
, sectional end elevation of the machine.
UNITED STATES PATENT OFFICE.
DAVID s. ABBOTT, or oLEAN, NEW YORK.
SLAB-SAWI N e MACHINE.
SPECIFICATION forming part of Letters Patent No. 410,777, dated September 10, 1889.
Application filed October 18, 1888. Serial No. 288,438. (No model.)
To aZZ whom it may concern:
Be it known that I, DAVID S. ABBOTT, of Olean, in the county of Oattaraugus and State of New York, have invented a new and Improved Slab-Sawing Machine, of which the following is a full, clear, and exact description.
My invention relates to an improvementin slab-sawing machines, commonly known as slab-Slashers, and has for its object to provide a machine in which the material will be automatically fed to the saw for each successive out; and a further object of the invention is to provide a means whereby the slab will be automatically prevented from feeding lengthwise while the saw is in the cut; and the object of the invention is also to provide a means for holding the slab stationary while being cut and means for releasing the slab to be fed forward for another cut.
The invention consists in the construction and combination of the several parts, as will be hereinafter fully set forth, and pointed on in the claims.
Reference is to be had to the accompanying drawings, forming apart of this specification, in which similar figures of reference indicate corresponding parts in all the views.
Figure 1 is a plan view of the machine. Fig. 2 is a side elevation, and Fig. 3 is a partly In carrying out the invention the frame is adapted to extend partially below the floorline 11, and consists of a series of cross-beams 12 and vertical standards 13, bolted or otherwise secured together to form a rectangular open body 14, from the sides of which body at the front horizontal wings 15 and 16 are respectively projected, supported in any approved manner. The wing 15, adapted to receive the material to be cut, is longer than the wing 16, and is provided at intervals in its length with transverse carrying-rollers 17, having secured to their forward extremity a sprocket-wheel 18. The shorter wing 16 is also provided with a carrying roller or rollers having a sprocket-wheel attached thereto, and at the extremity of the said wing 16 a transverse bumperbe'a1n 19 is secured, as best shown in Fig. 1.
In the base-beams of the bod y-frame, parallel with the axis of the wings, a drive-shaft 20 is j ournaled, provided at one projecting end with a drive-pulley 21, and at the other extremity with a small pulley 22. A large pulley 23 is also keyed or otherwise attached to the driveshaft, aligning the center of the main frame. A saw frame is pivoted upon the driveshaft, consisting of two perpendicular standards 24, through the lower end of which the main shaft passes, having journaled in their upper ends a short shaft 25, having secured thereto between the standards a pulley 26, belted to the pulley 23, and a circular saw 27, fixed upon the outer end contiguous to the short wing 16, as best shown in Fig. 1. The saw is adapted to be carried by the swinging frame on or near a radial line from the main shaft. Thus the belt connecting the frame and main shaft is kept at nearly the same tension while the saw is being fed to the material. At the rear of the body-frame, near the top, 'a shaft 28 is journaled, provided with a central crank-arm 29, a large friction-pulley 30, secured thereto at one side of the crank-arm, and an essentially hook-shaped cam 31, keyed thereto near said friction-pulley, as best shown in Fig. 3. Both ends of the crankshaft 28 are journaled in fixed bearings.
The swinging saw-frame is reciprocated from the crank-shaft by means of a forked pitman 32, the rear or straight one of which is loosely mounted upon the crank-arm of the shaft 28, the members of the bifurcated end being pivot-ed, respectively, to the several standards 24 of the swinging frame, as best shown in Figs. 1 and 2.
Below and to the rear of the crank-shaft 28 a parallel straight shaft 33 is journaled, one end of the said shaft being held to revolve in fixed bearings projected from the body-frame and the other end in a movable bearing 34, consisting ofa horizontal beam pivotedto the body-frame, as best illustrated in Fig. 3.
Upon the adjustable shaft 33 a small friction-pulley is fixed, adapted for frictional contact with the larger friction-pulley 30 upon the crank-shaft. The adjustable shaft 33 is also provided at one end with a pulley 36, belted to the drive or main shaft pulley 22.
It will thus be observed that the saw-frame is actuated only when the friction- pulleys 30 and 35 are brought in contact.
The two friction-pulleys are normally out of contact and are brought together by the manipulation of a lever 37, fulcrumed beneath the floor-line upon the body-frame, as best shown in Fig. The lever 37 extends beyond the body-frame at front and rear, being connected at the rear end with the adjustable shaft-bearing 31 by a link 38, and provided at the forward end with an attached rod 30, projecting upward through the floor, terminating in a footplate 10.
A clamping arm or dog 11 is pivoted in lugs 42, integral with the upper portion of the body-frame at one side of the rear, consisting of an arm extending forwardly over the bodyframe to the left of the saw, provided with a weight 12 at the top of the forward end and a series of teeth 43 upon the under side, purposed to engage with the slab, as shown in Fig. 3. The forward end of the dog 41 may be bent, if desired, to readily grasp a circular contour.
To the rear of the dog ii, at the pivotal point, an angle-bar 11- is attached through the medium of a crossbar 15, or the said cross-bar and angled bar may be integral with the dog. The horizontal member of the bar is parallel with the dog, and the vertical member of the bar extending downward within the body-frame is provided at the extremity upon one side with a horizontal pin -16. The pin 46 is adapted for contact with the rear end of a lower dog 4:7, fulcrumed at or near the center upon a vertical standard 18, constituting a portion of the body-frame, as best shown in Fig. The lower dog, which is to the right of the saw, is straight and provided atthe forward end with attached teeth 49, purposed to engage with the under side of the slab.
To the rear of the pivotal point a spring 50 is attached to the lower dog and also to the frame, the spring serving the same purpose as the weight upon the upper dog-namely, to keep the dogs in contact with the slab until purposely disengaged.
The two dogs are actuated from the crankshaft 28. This is effected by the hook-cam 31 lifting and remaining a predetermined time in contact with a vertical finger 51, proj ected downward from the rear end of the upper dog, as best shown in Fig. The position of the cam 31 upon the crankshaft 28 is so calculated as that it will hold the dogs disengaged from the slab through the medium of the finger 51 while the crank-arm 29 is in its backward throw and the saw traveling from and toward the slab. \Vhen, however, the slab has traveled forward for another cut and just previous to the saw entering the same, the cam releases the finger and the dogs again resume their normal position.
To prevent the crank-shaft E28 by any possibility from carrying the cam 31 far enough to relieve the (logs before the slab is carried forward for the next cut, a safety-latch 52 is provided, consisting of a vertical bar recessed at the upper end to receive a pin 5% upon the upper dog, as shown in positive lines, Fig. 2, and dotted lines, Fig. 3.
The rod is normally held in engagement with the pin 54 by a spring 55, and the lower end of the latch 52 is connected by a bar 56 with one end of a lever 57, pivoted to the base of the body-frame, as best shown in Fig. 2-3, the said lever being provided with a lug 58 upon one side, having an inclined upper end, which lug is adapted for engagement with a pin 59, secured to the foot-lever 37.
As aforesaid, the latch-rod 52 engages with the pin 54 at all times, and when the upper dog is elevated the recess in the latch-bar receives the pin and holds the dogs in an open position. The dogs are not released until the foot-lever 37 is depressed to throw the friction- rollers 30 and 35 in contact when the pin 59 is brought in engagement with the lug 58, which, carrying the lever 57 forward, presses the latch-bar backward, causing it to assume the position illustrated in positive lines, Fig. 3, whereby the dogs are permitted to approach one another.
A shaft 60 is journaled in the body-frame at the right-hand side, extending from front to rear, from which the carrying-rolls 17 are driven, which shaft is provided upon the forward extremity with a sprocket-wheel G1, the sprocket-wheel 61 and likewise the sprocket wheels of the carrying-rollers being purposed to engage with an endless chain belt 62, the said chain belts engaging also with one or more idlers (33, as best shown in Fig. 2. At or near the rear end the shaft 62 is provided with a friction-pulley 64.
A second shaft 05, parallel with the shaft 62, is journaled in fixed bearings at the for ward end, the rear end being journaled in a pendent beam 66, pivoted to the body-frame. This second shaft 65, which is adjustable, is provided with a friction-pulley G7, purposed to engage with the similar pulley 6i, and an ordinary pulley 68, belted to a pulley (59, secured to the drive-shaft 20, as shown in Fig.
In the lower end of the adjustable bearing beam 66 and likewise in the frame of the wing 16 an adjusting-shaft 70 is held to revolve, provided with a crank-arm 71 at the rear end and a lever 72 at the forward end. The crank-arm 71 is united with the forward end of an essentially-vertical lever 73, pivoted at the rear of the body-frame by a connecting-rod 74, as shown in Fig. 1, to which lover a lug 7 5 is secured, adapted for time contact with a finger 76, rigidly secured to the shaft 28. The movement of the linger 76 is so timed that it will engage with the lever 73 just as the saw recedes from the out and set the carrying-rollers in motion to carry the slab onward for another cut. This is accomplished by the lever 72 being turned to the left, as shown in Fig. 1, by the horizontal 1ever 7 3 engaging with the finger 76, where upon, through the medium of the crank-arm 71 and the pivoted bearing-beam 66, the rotating shaft is made to approach the shaft 62 until the friction- pulleys 64 and 67 are in contact.
If it is not advisable to have the slabs automatically delivered to the saw, the lever 72 is turned to the right. or opposite to the position shown, whereupon the shaft 65 will be so far removed from the shaft 60 that the action of the finger 76 upon the lever 73 will not bring the two friction- pulleys 64 and 67 in engagement.
It will thus be observed by the aforesaid construction that, the slab being cut, it is antomatically fed forward for another cut simultan eously with the withdrawal of the saw, and that as the saw is fed automatically forward for another cut dogs engage the slab and retain it in a fixed position. The slab being again cut, the saw recedes, the dogs disengage, and the slab is moved forward again.
Having thus described my invention, I claim as n ew and desire to secure byLetters Patent 1. The combination, with a body frame, wings attached to the said frame, and carrying-rollers journaled in said wings, of a pivoted frame, a shaft journaled in the same, carrying a saw, a crank-shaft parallel with the saw-shaft, a pitman connecting the sawframe and crank-shaft, an upper and lower toothed dog fulcrumed upon the body-frame, and means, substantially as shown and described, for rotating the crank-shaft and actuating the dogs from said crank-shaft, as and for the purpose specified.
2. The combination, with a body-frame, wings attached to said frame, carrying-rollers journaled in said wings, apivoted frame, and a shaft journaled in the pivoted frame, carrying a saw, of a crank-shaft parallel with the saw-shaft, a pitman connecting the saw-frame and crank-shaft, an upper toothed dog fulcrumed upon the body-frame, provided with a finger at the extremity, a lower toothed dog, actuated by the upper dog, and an essentially hook-shaped cam secured to the crank-shaft capable of contact with the said finger, substantially as shown and described.
3. The combination, with the body-frame and the drive-shaft, a rocking frame, a shaft journaled in the rocking frame, carrying a saw, a crank-shaft parallel with the saw-shaft, provided with a friction-roller, and a pitman connecting the crank-shaft and rocking frame, of a shaft parallel with and beneath the crankshaft, said shaft journaled at one end in a fixed bearing and in a swinging bearing at its other end, provided with a friction roller aligning the friction-roller of the crank-shaft,
- said shaft belted to the drive-shaft, a lever fulcrumed in the body-frame, and a link connecting the swinging bearing and the lever, all arranged substantially as and for the purpose described.
4. The combination, with a body-frame and the drive-shaft thereof, a rocking frame, a shaft j ournaled in the rocking frame, carrying a saw, a crank-shaft parallel with the sawshaft provided with a friction-roller and a cam, and an adjustable shaft beneath the crankshaft belted to the drive-shaft provided with a friction-roller aligning the friction-roller of the crank-shaft, of a lever linked to the adjustable shaft, an upper dog ful crumed upon the body-frame provided with a downwardly-projecting finger, and a lower dog actuated from the upper dog, substantially as shown and described.
5. The combination, with a body-frame and the drive-shaft thereof, a saw frame rocking onthe drive-shaft, a crank-shaft connected with the rocking frame, an adjustable shaft parallel with the crank-shaft, having frictional contact therewith, and a lever controlling the adjustable shaft, of a cam secured to the crank-shaft, an upper and lower dog actuated by said cam, and a latch-bar controlling the dogs and connected with. the said lever, substantially as shown and described.
6. The combination,wi.t-h abody-frame and the drive-shaft thereof, wings projected from the body-frame, carrying-rollers j ournaled in said wings, a saw-frame rocking upon the drive-shaft, a crank-shaft connected with the saw-frame, an adjustable shaft having frictional contact with the crank-shaft, and a footlever controlling the adjustable shaft, of a cam secured to the crank-shaft, upper and lower dogs actuated by said cam, a latch-bar controlling the dogs and connected with the said lever, and means for actuating the carrying-rollers, substantially as shown and described, whereby the material is fed to the saw, the saw automatically fed to the material, and the material held from binding while being cut, as set forth.
7. The combination, with a body-frame and the drive-shaft thereof, Wings projected from the body-frame, carrying-rollers journaled in said wings, a saw-frame rocking upon the drive-shaft, a crank-shaft connected with the saw-frame and provided with a fixed finger, and a connection between the crank-shaft and drive-shaft, substantially as described, of a shaft 60 at a right angle to the crank-shaft, an adjustable shaft 65 parallel with the shaft 60, having frictional contact therewith, a
'chain belt connecting shaft 60 and the carry- IIO ing-rollers of the wings, an adjusting-shaft 70,
provided with a crank-arm 71, a lever 73, engaging the finger of the crank-shaft, and a rod 74, connecting the lever and adjustingshaft, all combined for operation substantially as shown and described.
8. In a slab-sawing machine, the combination, with the crank-shaft 28, j ournaled on the frame, the cam 31, mounted thereon, the pivotal frame having a saw journaled therein, and a pitman-connection between crank-shaft and saw-frame, of the dog 41, pivotal] y secured to the frame, its forward end projected over the slab to be cut and having at said end teeth 43, for engaging the slab, pin 54, projected laterallyfroni the dog, and a finger51, depending therefrom, adapted to engage the cam 31, the pivoted dog 4C7, having teeth l0, adapted to engage the lower surface of the slab, the angle-arm ll, having the pin 46,1"01' engaging the dog t7, the latch-lever 52, for engaging the pin 54, a lever 57, having a lug 58, a rod 56, connecting said lever and the latch-lever '"2, and the lever 37, having a pin 50, for engaging the lug 58, all arranged substantially as and for the purpose described.
9. In a slab-sawing machine, the combination, with the main shaft, the rocking frame Bl, pivoted upon said shaft, a saw journaled in said frame, the crank-shaft 28, having a frie tion-pnlley 30, and a pitman 32, eonneetin g the saw-frame and crank-shaft, of the shaft 33, having a fixed beari n g at one end and a swinging bearing ill at its opposite end, the lever 37, fulernnled in the main frame, and a link-eonneetion 38 between said bearing and lover,
all arranged substantially as shown and described.
10. In a slab-sawing machine, the combination, with the main frame, the carrying-rollers mounted thereon, the shaft 60, journaled in the main frame and geared with the carryin g-rolle, s, and the friction-pulley 64, mounted on the said shaft, of the shaft 65, the frictionpnlley 67,1nounted thereon, the beam 66,pivoted to the main frame and carrying one end of the shaft (35, the shaft 70, jonrnaled in the main frame, having a crank-arm 71 and a handle 72, the shaft 28, provided with a cam 76, the lever 7 3, adapted to engage the cam 7 6, and a rod connecting the lever 7 3 and crankarm 71, all arranged substantially as and for the purpose described.
DAVID S. ABBOTT.
\Vitnesses:
J. B. JOHNSON, II. 0. PLAYF'ORD.
US410777D Slab-sawing machine Expired - Lifetime US410777A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2438610A (en) * 1944-04-17 1948-03-30 Lambert Edmond Log-and carriage-locking swingingsaw sawmill
US2540004A (en) * 1947-06-09 1951-01-30 Us Plywood Corp Intermittent stock-feeding machine
US2612191A (en) * 1949-09-02 1952-09-30 James M Paton Swinging power-operated circular saw
US2614589A (en) * 1951-03-21 1952-10-21 Raymond C Coats Automatic intermittent feed-and-cut machine for sawing firewood
US2625185A (en) * 1950-05-26 1953-01-13 Roy L Merry Sawing machine with improved feed actuation
US2652864A (en) * 1948-06-14 1953-09-22 Graham Tie Dowel Service Compa Machine for cutting defective sections from lumber
US2814319A (en) * 1954-08-16 1957-11-26 Self Storing Window Co Inc Sash saw for mitering simultaneously a plurality of pieces
US2988116A (en) * 1959-04-08 1961-06-13 Casmer J Neumann One-man saw rig

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2438610A (en) * 1944-04-17 1948-03-30 Lambert Edmond Log-and carriage-locking swingingsaw sawmill
US2540004A (en) * 1947-06-09 1951-01-30 Us Plywood Corp Intermittent stock-feeding machine
US2652864A (en) * 1948-06-14 1953-09-22 Graham Tie Dowel Service Compa Machine for cutting defective sections from lumber
US2612191A (en) * 1949-09-02 1952-09-30 James M Paton Swinging power-operated circular saw
US2625185A (en) * 1950-05-26 1953-01-13 Roy L Merry Sawing machine with improved feed actuation
US2614589A (en) * 1951-03-21 1952-10-21 Raymond C Coats Automatic intermittent feed-and-cut machine for sawing firewood
US2814319A (en) * 1954-08-16 1957-11-26 Self Storing Window Co Inc Sash saw for mitering simultaneously a plurality of pieces
US2988116A (en) * 1959-04-08 1961-06-13 Casmer J Neumann One-man saw rig

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