US55702A

US55702A - Improvement in shingle-machines

Info

Publication number: US55702A
Authority: US
Publication date: 1866-06-19
Anticipated expiration: 1883-06-19

Description

lUNITED STATES PATENT OFFICED CHARLES L. PIERQE, OF BUFFALO, NEW YORK.

IMPROVEMENT IN SHINGLE-MACHINES.

Specification forming part of Letters Patent No. 55,702, dated June 19,1866.

To all 'whom fit may concern Be it known that I, CHARLES L. PIERCE, of the city of Buffalo, county of Erie, and State of New York, have invented certain new and useful Improvements in Shingle-Sawing Machines 5 and I do hereby decla-re that the following is a full, clear, and exact description thereof, reference being had to the accompanying drawings, making a part of this speciication.

The nature of this invention consists, first, in giving a reciprocating motion to a double block-carriage of a shingle-sawing machine by an overhung crank working in a slotted cross-head attached to said block-carriage 5 second, in a modification of the slotted crosshead by which the crank is made to give a uniform reciprocating motion to the blockcarriage, the same being also an improved mode of converting circular into reciprocating motion, applicable to other purposes; third, in the construction of two individual devices for dogging77 the shingle-block automatically, the one operating by a weight and the other by a spring, also a device for (logging the block by hand-power; fourth, in the use of two double taper-cams upon one shaft, to alternately tilt the block-bed and give the taper to the shin gie, said cams being capable, by a simple longitudinal adjustment of the shaft, of increasing or diminishing the degree of taper in the shingle, as may be required.

In the annexed drawings, Figure I is a side elevation of myimproved machine. Fig II is a plan, and Fig. III is an end elevation, of same. Fig. IV is a detail view of device obtaining uniform reciprocating motion of blockcarriage. Fig. V is a detail view of slotted cross-head, to be used in place of device shown in Fig. IV. Figs VI and VIP, detailview of tilting block-bed; Fig. VII, details of doubletaper-cams and shat't for tilting block-bed. Fig. VIII shows a device for operating the shingle-block dogs by hand-power.

Letters of like name and kind refer to like parts in each of the figures.

A represents the bed-frame of the machine, rectangular inform and supported by the legs A. rIhe side rails of this frame carry the parallel tracks a2 a2 upon which the block-carriage -reciprocates B represents thecircular cuttin g-saw, of large diameter and supported by 'a vertical spindle, B', at the center of the rectangular bed-frame, said spindle having its bearin gs in appropriate transverse bridge-trees B2 B2. The saw is driven by a belt acting on the pulley B4 on the saw-spindle.

C G represent the double block-carriage, consisting of two open rectangular frames C and C', which receive the shingle-blocks, said frames being arranged one on either side of the saw, but connected together by cross-bars G2, so that they reciprocate together and as one frame upon the tracks t2 a2, by which they are supported above the plane of the saw. Being on opposite sides of the saw and connected together, as one frame approaches the other recedes from the saw, and vice versa, so that both frames being supplied with blocks, the saw is kept constantly at work, or nearlyso.

The reciprocating motion of the frame is given by an overhung crank, D, (the axis of which coincides with that of the saw,) working in a slotted cross-head, D, attached to the frame connection-bars G2, and equidistant from each frame, C and C', or, when a uniform motion of the saw-carriage is desired, in a peculiarshaped cam-slot, which will be hereinafter described.

rIhe crank D is supported by a transverse bridge-tree, E, which also supports a short counter-shaft, E', which is geared with the crank-shaft by a spur-wheel and pinion, E2 E3.

The lower bridge-tree, B2, is extended at one side ofthe machine, as is also the upper bridge tree, E, to support the vertical shaft F, said shaft being driven by a belt, F', from the sawspindle, and transmitting motion to the crank D by a belt, F2, leading to the counter-shaft E. The motion of the saw-spindle must be reduced by a proper proportionin g of the pulleys and gears on the shafts F and E', so as to cause a proper relation to exist between the velocity of the block-carriage and that of the saw, which will be from one-half to one-inch Inovement of the carriage to one revolution of the saw.

Each frame ofthe block-carriage is provided with a (logging device, by which the shingle block is held therein to be carried to the saw. O11 each side ot' the saw, and nearly in the plane thereof, is a tilting block, table, or bed, by which, in connection with the (logging device, the position of the blocks is changed at each movement of the carriage in a manner to present them to the saw in such position as to give the required taper to the shingles as they are eut from the block.

For convenience, I will describe the construction and operation of the (logging and tilting mechanism as affecting o ne block only, it being understood that from the arrangement and motion of the block-carriage one block is being sawed while the other is pass ing back to be dogged. Two different forms ot' the (logging device are represel'ited, one form being shown as connected with the frame C, and the other as connected with the frame C. Either form may be used on both frames. Both forms have a stationary toothed bar, G, and a parallel but movable toothed bar, G', between which the shingle-block is held. In the rst instance the movable bar G is operated by a bell-crank, G2, hinged to the frame C, one arm of the crank being connected with a bar and the other carrying a weight, G3, the action of which is to throw the movable dog-bar toward the stationary one, and thereby clamp the shingle-block between. The weight being raised draws bach the movable dog-bar and releases the shingle-block. The operation ofthe moving dog-bar is made automatic by the at- -tachment to the bed-frame A of a hinged lever, G4, in such position that as the block-carriage, in returning the block from the saw,approaches the end of its movement in that direction the arm will strike a shoulder on the weight, and, by being carried by the weight from an inclined to an upright position, raise the same, and thereby release the shingle-block. At this timeI the block will be over the tilting table H. (belon ging to that frame of the carriage in which the block is placed,) so that as it is released from the dogs it will drop thereon, and the plane ofthe table being properly inclined to that ofthe saw, the dogs,when they again close upon the blocl;,will clamp it in that position, and in that position carry it to the saw, so that the taper of the shingle cut off will always correspond to the inclination of the table to the plane of the saw.

rlhe closing of the dogs upon the block takes place immediately as the bloclnfrom the change in motion of the blockcarriage, beginsto move toward the `saw by the disengaging` of the weight G3 from the arm Gt.

The inclination of the table requires to be reversed as each shingle is cutfrom the block, in order to work up the block evenly. For this purpose I employ two double taper-cams, I, upon a shaft, I', placed at right angles to the line of movementof the block-carriage and to the axis upon which the table tilts, said cams bearing against the table on each side of its tilting axis, and, by a periodic movement imparted to them from the bloclbcarriage, reverse the inclination of the table as required.

Theform of the cams and their operation may be more specifically described as follows: Supposing the cam to be cut by a plane at right angles to its axis, the resulting section will be an ellipse, the major axis of which will decrease and the minor axis increase as the section may be taken nearer the base end,which is a circle; or the major axis will increase and the minor axis decrease as the section may be taken nea-rer the opposite end, so that supposing the cams to be cut by the plane of the major axis the resulting section will be a cone-frustum having for its larger base the greatest major axis an d for its smaller base the shortest major axis, and supposing it to be cut by the plane of the minor axis, the resulting section will also be a cone-frustum, but reversed, having for its largest base the greater minorl axis and 'for its smaller base the shortest minor axis.

The two cams are placed upon the shaft l in such relative position that the plane ot' the major axis of the one will coincide with the plane ot' the minor axis of the other, so that when the major axis of one cam bears against one side ot' the tilting table the minor axis of t-he other bears against the opposite side, so that the table is inclined in a degree corresponding to the difference between the major and minor axes; and as those are at right angles to each other, a quarter-revolution of the cams will bring the minor axis of the one into the position before occupied by the major, and the major axis of the other into the position before occupied by the minor, which will have the effect to change or reverse the inclination of the table. From this it will he seen that each quarter-revelution of the cams will reverse the inclination of the table. To give the quarter-revolution of the cams at the time requiredi. e., at the return ofthe block from the saw-a four-armed spider or ratchet, I2, is attached to the cam-shaft l', and a dog or pawl, 13, is connected with the block-carriage, which will, as the carriage approaches the end of its movement, engage the said ratchet-teeth and give the required movement to the cams. A longitudinal or endwise movement of the camshaft in one direction will increase the difference between the major and minor axes bearing against the table, and consequently increase its inclination, while an opposite movement will decrease its inclination. To permit this longitudinal adjustment the cam-shaft is provided with collars l, which may be set thereon and changed as required.

As a change in the inclination of the table affects the taper of the shingles, it follows that any required taper may be obtained by a simple longitudinal adjustment ofthe shaft.

The tilting table and cam shaft are supported from the main bed-frame by cross-pieces 15, which may be raised by set-screws I to bring the blocli'table more or less above the plane of the saw, and thereby the thickness, as well as the taper, of the shingles eut may be regulated.

The second device, for (logging the block, (before spoken of) consists of a bell-crank, J, having its fulcrum at J', one arm connected with the movabledogbar, the other with a spring-bar, J2, passing through from side to side of the block-frame and projecting on 011e side, so that when the carriage reaches the eX- treme of its movement in one direction the projecting end may strike a stationary stop, J3, on thel bed-frame and be moved thereby in a manner to compress the spring and open the clamp-bar, the spring closing` the clamp upon the block when allowed to do so by the return of the carriage.

The device shown in Fig. VIII, for operating the block-dogs by hand-power, consists of a gear-segment, K, applied to the shaft ofthe bell-crank G2, and a lever and segment, K K2, having their t'ulerum at K3,so that by raising or lowering thelever-segmcnt, the dog G will be operated. This will be found convenient frequently when it is desired to remove the wastage of the blocks from the machine, and would also be convenient should it be desired to operate the block-carriage by hand-power.

It now remains to describe the device for convertin g the circular motion ofthe crank into a uniform reciprocating motion of the block-carriage. lIhe crank working in the straight slot of the cross-head D does not give a uniform motion to the block-carriage, but a motion which increases in velocity during the first quarter-revolution ofthe crank-t'. c., while the crank is passing from a position coincident with the line of movement of the carriage to a position atri ghtan gles thereto-and decreases through the second quarter, or until it again assumes a position coincident with the line of movement of the carriage. To obviate this and give the carriage equal progressive movements to equal angular movements of the crank, the slot in which the crank-pin works is made in the general form ot' a diamond, as shown at L, the sides, however, being curves of such form as will, by their varying angle to the line ot' movement of the carriage, compensate for the increase and decrease in movement which would be due to the peculiar movement ofthe crank, as above stated.

The crank, at the time that the carriage is at the extreme of its movement in one direction, stands at the middle angle of the slot; but when it has completed one-quarter of its revo- `lution arrives at a side angle thereof, whence it returns, during the second quarter of its revoln tion, to the opposite middle angle, and thereby completes the movement ofthe carriage in one direction. rEhe third quarter of its revolution carries it to the opposite side angle, and the fourth quarter returns it to the same middle angle from which it started, and completes the return movement of the carriage.

To compel the crank-pin to traverse the slot, as above stated, inclined springs or weighted trucks m are titted in the iirst and third quarters of the slot, which, being depressed by the crank-pin as it passes through the slot, spring up behind the same and prevent its return through the same quarter, thereby compelling it to take the course through the slot, as before stated.

The object in giving a uniform movement to the carriage will appear from the following: The velocity with which a block may be fed to the saw is governed by the distance which the saw willcnt into the same smoothly at each revolution, which distance we may assume to be three-fourths of an inch. Supposing the crank to work in the straight slot, giving the gradually increasing and diminishing feed, its maximum velocity couldV not exceed threefourths of an inch without rough work being the consequence, and as its lowest velocity would be naught, the average would not be over one-half of an inch to a revolution. By the use of the cani-slot the maximum velocity of three-fourths of an inch to a revolution may be maintained all of the time, thus enabling the machine to be worked at one-fourth higher velocity and do one-fourth more work.

Having thus fully described my invention, what I claim, and desire to secure by Letters Patent, is-

l. Reciprocating the block-carriage which feeds the block to the saw in an unequal progressive movement by means of the crank-pin D, working in the slot of cross-head D', substantially as described.

2. Imparting an equal progressive Inovement ot' the block-carriage by means of the diamond slot L and crank D, and thereby giving an equal and uniform feed of the shingleblock to the saw, substantially as set forth.

3. Operating the movable dog-bar G of the (logging device by a weighted bell-crank, G2, working, in combination with the hinged lever G4, on the bed-frame in the manner described.

4. Operating the movable dog-bar G ot' the (logging device by the bell-crank J and springbar J2, working, in combination with the stoppiece J3, on the bed frame in the manner described.

5. The arrangement and combination of the segment-lever K K2 with the bell-crank G2, carrying segment K, and movable dog-bar G', for the purpose of operating the dog-bar by hand-power.

6. The double-taper cams I, in combination with the tilting block-tables when arranged in relation to the block-carriage and operated thereby, in the manner and for the purpose set forth.

GHAS. L. PIERCE.

Witnesses W. H. FoRBUsI-r, B. H. MUEBLE.