US436720A - Machine for cleaning vegetable fiber - Google Patents

Description

(No Model.) 4 Sheets-She a 1.

W. 0. MOBRIDE. I MAGHIN'E FOR CLEANING VEGETABLE FIBER.

35.1 @[Hoz (No Model.) 4 SheetsSheet 2-. W. 0.1VI0BRIDE.

MAGHINE FOR CLEANING VEGETABLE FIBER. No. 436,720. Patented Sept. 16, 1890.

(No Model.) I 4 Slieets-Sheet 3.

' W. O. MQBRIDE.

MACHINE EOE GLBANING VEGETABLE EIBEE. No. 486,720. Patented Sept. 16, 1890,

i 1 i i 'IHHII HHIHHHIHIHHIIIHHIHHFIII HHIH'IHIIIIIHIHHIIIIHHIIHIIIIIIIIIIIIII IlHI HIIIIIHH (No Model.) 4 Sheets-Sheet 4.

W. 0. MCBRIDE. MACHINE FOR CLEANING VEGETABLE FIBER. No. 436,720. Patented Sept. 16, 18901.

Qw'illmmw SMWWPO? jig 3% A; wozlf UNITED STATES I PATENT OFFICE.

WVILLIAM O. MCBRIDE, OF BROOKLYN, NEI/V YORK.

MACHINE FOR CLEANING VEGETABLE FIBER.

SPECIFICATION forming part of Letters Patent No. 436,720, dated September 16, 1890.

Application filed December 9, 1889. Serial No. 333,111. (No model.)

To all whom it may concern.-

Be it known that I, WILLIAM C. MCBRIDE, of Brooklyn, in the county of Kings and State of New York, haveinvented certain new and useful Improvements in Machines for Cleaning Vegetable Fiber, of which the following is a specification, reference being had to the accompanying drawings, and to the letters of reference marked thereon.

The object of my invention is to remove extraneous matter from the fiber of fibrous vegetable substances which have been subjected to a crushing process; and my invention consists in the details of construction and arrangement hereinafter set forth inthe specification and claims.

In the drawings, Figure l is a side elevation of a portion of my improved machine. Fig.

' 2 is a similar View of the remainder of the machine. Fig. 3 is a plan View of Fig. 1. Fig.4. is avertical longitudinal section through the line 0000 of Fig. 3; and Figs. 5, 6, 7, and 8 are views of parts of the machine detached, Fig. 5 being in section and Fig. 8 partly in section.

Similar letters of reference indicate similar parts in the respective figures.

A represents the frame of the machine, ob-

' long in form and preferably made of wood.

The frame is decked over, an opening B being made in the deck about midway of the length of the machine.

Immediately below the opening 13 two shafts C O are journaled in suitable bearings in the frame, and on each of these shafts are secured scrapers c. (I use, preferably, four scrapers on each shaft, but do not limit myself to this number.) The shafts O C extend outwardly beyond the machine on each side, and on one side they have additional bearings in a frame A, laterally extending from the main frame, and one of the shafts C extends beyond the frame A and carries a pulley C, by which motion is imparted to the shaft from any suitable source.

Between the two frames A A are two gearwheels C O one on each shaftwhich engage with each other and cause the scrapers to revolve in opposite directions, the scrapers being so arranged that they interlock or overlap each other in a slight degree.

Immediately under the scrapers are two tension-rollers D D, the shafts d of which are supported in suitable bearings D hung on the shafts O O. The bearings D areeach made in two parts connected by a threaded pin d. This construction enables the bearings to be lengthened or shortened to a small extent, and also prevents the shafts binding in these bearings should the rollers not lie, 6c exactly parallel with each other during the operation of the machine. Each bearing of the roller D is held rigidly in a vertical position by means of a threaded pin (2 passing through a boss d provided with a threaded opening and secured to the frame of the machine, and also through a threaded opening in the lower part of the bearing. The bearings of the rollerD are, however, free to swing on the shaft 0, and the minimum space between the rollers D and Dthat is, the extent of approach of the roller D to roller Dcan be adjusted by means of the pins (2 engag ing with extensions D on the bearings of the roller D. V

E E are chains, one on each side of the machine. Each of these chains atone end passes partly around a pulley F and is fastened. thereto, the other ends of the chains being each secured to a spiral spring F, which springs are in turn secured to a bar F one at each end thereof. The bar F extends transversely of the machine, and is connected to the main frame by means of a threaded pin F firmly secured to the bar F midway of its length, said pin passing through aboss F on the frame A. A thumb-nut F works on the threaded pin and serves to adjust the tension on the springs F as well as to hold the'bar F in position. The pulleys F are 0 rigidly secured to ashaft f, extending across and having suitable bearings in the frame A. One end of the shaft f is provided with a crank f, the end of which is secured to a chain f extending vertically in both directions from the crank and secured at its upper end to the frame A and at its lower end to a treadlef hinged to the main frame. The

chain f is in two sections, a tension-springf being interposed between the sections at an point above the crank-arm.

The extensions D of the bearings for the roller D are attached to the chains E, and it will be observed that the chains E are held taut by the opposing forces of the tensionsprings F and f", for the springs F have a tendency to pull the chains away from the pulleys F, while the springf tends to elevate the crank f and so wind the chains on the pulleys F. The extensions D are so attached to the chains E as to normally hold the roller D a short distance from the roller D, and when it is desired to bring the rollers more closely together it is only necessary to depress the treadle f which will permit the chains to unwind from the pulleys F, and the springs ,F by their contraction will draw the chains E, and with them the bearings of the roller D, toward them.

The shafts dextend beyond their bearings, each carrying at each of its ends a pulley G. One of the shafts C also carries at each end a pulley G, similar to the pulleys G, and a rope II is rove around the pulleys G and G and a pulley G2 on each side of the machine, in such a manner as to cause the rollers D and D to revolve in the same direction as the scrapers immediately above them. The pulleys G2 turn on their shafts g, and the shafts g are capable of revolving in their bearings g, the latter being attached to a bar g, hinged to the main frame at g A chain or cord g is attached to and wound around each of the shafts g and connected to one end of a spiral spring g, the other end being connected with the main frame. One end of each shaft g is provided with a ratchet-and pawl mechanism 9 and by winding or unwinding the cord g on the shaft g the tension on the rope II may be regulated. The hinged connection of the bearings of the pulleys G to the frame also compensates for the unequal strain on the rope I-I, caused by the rollers D D occupying diiferent positions relative to each other.

The top of the frame is provided with two rack-bars I Ione on each side thereof-and these rack-bars form rails on which the holders travel. I prefer to use two holders-one moving from each end of the machine-in order that they may be used alternately to convey the fibrous stock to the scrapers. In

' construction the holders are alike, and consist of a frame J in which a-shaft K is journaled. This shaft carries at each'end a pinion jK which engages with the teeth of the rack-bars I. The shaft is also provided with a crank 7c, by turning which the holder can be propelled in either direction. About midway of the frame another shaft L is journ'aled and carries within the frame a fluted roller L.

L L are grooved wheels loosely mounted on the shaft L and adapted to run on the rackbars I. The shaft L is also provided with a crank Z, by means of which the fluted roller L can be revolved. A ratchet and pawl mechanism Z is also provided to prevent, when necessary, the turning of the fluted roller.

M M are the two sides of a jaw hinged to the standards J at the front end of the frame J. The ends of the sides M M extend a short distance beyond the standards and are square.

'J J are plate-springs, each secured at one end to the frame J, and with their free ends extending slightly beyond and in close proximity to the lower corners of the square ends of the sides M M. When it is desired to elevate the jaw, the ends of the sides extending beyond the standards will depress the springs, and when the sides are in substantially a vertical position the springs will bear on the square ends and hold the sides in that position.

M M are two elastic rollers journaled in bearings m, pivoted on the sides M M, the rollers being adapted to rest saddlewise on the fluted roller L.

A red N extends across from one side of the jaw to the other, and on this rod are hinged two pairs of rods, each pair carrying dabblingbrushes N N, one set of brushes being on each side of the rollers M and L. The brushes are of sufficient length to extend below the roller L and in close proximity to the deck of the machine.

The rear ends of the sides M are bent upwardly, and a shaft 0, carrying a roller O,is journaled in them. The shaft 0 is provided at one end with a hand-wheel 0 and a ratchetand-pawl mechanism 0.

P is a yoke notched out at each end at p to adapt it to the notched ends j of the sides of the frame J. The yoke pis mortised through at p p, and hollowed out on its under side between the two mortises, as shown at 19 In each mortise a pulley p is journaled, and a rope P runs around them andunder the yoke P, the ends of the rope being secured to the roller 0. In the hollow p a spiral spring 19 is placed, both ends of the spring being attached to the rope P. A small amount of slack is left in the rope between the ends of the spring, and the rope is thus made elastic to the extent of the slack. The rope P is of sufficient length to allow the yoke to swing clear of the end of the frame when necessary to turn the jaw up. When the holder is turned down, the yoke is made to engage with the notched endsj of the frame, and by turning the hand-wheel othe rope P will wind on the shaft at each end and hold the jaw down on the frame J.

The operation of the machine is as follows: The jaw of the holder'is elevated and a suitable quantity of the crushed fiber placed in the holder across the corrugated roller L. The jaw is then shut down and the yoke P made to engage with the notched ends j of the frame J, and by turning the hand-Wheel 0 the rope P will wind on the roller 0 and hold the jaw in position. The rollers M will bear uniformly upon the top of the fiber, their pivoted bearings enabling them to adjust themselves to any irregularity in the thickness of the layer of fiber. The brushes N bear on the fiber, pressing it down on the deck on each side of the roller L, and when the holder is moved over the deck will direct the ends of the mass of fiber into the opening B, and so between the scrapers. By turning the fluted roller the fiber will be fed down between the scrapers until it reaches the tension-rollers D D, when by depressing the treadle f these rollers will approach each other and grip the end of the mass of fiber between them, and then by causing the holder to travel back and forth over the opening B, and by a proper manipulation of the fluted roller L and the tension-rollers D D, the whole mass of fiber can be subjected to the action of the scrapers. When the fiber is sufficiently cleaned, the holder is moved-to its end of the machine to be doffcd and refilled, during which operation the other holder can carry its mass of fiber to be operated upon by the scrapers.

The elasticity given to the rope P, as de scribed, and the pivoted bearings of the rollers M M allow the latter to adjust themselves to anyirregularities in the thickness of the mass of fiber passing between them and the fluted roller L. The adjustable features in the bearings of the roller D also enable it to adjust itself to any irregularities in the thickness of the mass of fiber passing between it and the roller D.

Having described my invention, I claim 1. I11 a machine for cleaning fiber, the combination, with the main frame and scrapers j ournaled therein, of tracks on the main frame and holders movable forward and backward upon the tracks to carry fiber to the scrapers, substantially as specified.

2. In a machine for cleaning fiber, the combination, with the main frame and scrapers and tension-rollers j ournaled therein, of holders movable forward and backward upon the machine to carry fiber to the scrapers and tension-rollers, substantially as set forth.

3. In a machine for cleaning fiber, the main frame, a deck on the top thereof, said deck having an opening, rack-bars on top of the frame, and scrapers and tension-rollers journaled in the frame immediately under the opening in the deck, combined with holders movableforward and backward upon the rack: bars to carry fiber to and from the scrapers and tension-rollers; substantially as set forth.

4:. In a holder adapted to carry fiber to the scrapers of a fiber-cleaning machine, a frame movable on the frame of the machine, and a fluted roller j ournaled in said frame, combined with a jaw hinged to one end of the frame, and two rollers journaled in the jaw and adapted to rest saddlewise over the fluted roller when the jaw is closed, substan tially as specified.

5. In a holder for the purpose specified, the combination,with the frame and a fluted roller journaled therein, of a jaw hinged to one end of the frame, and two rollers journaled in bearings pivoted on said jaw, substantially as set forth.

6. Inaholder for the purpose specified,-the

combination, with the frame and a fluted roller journaled therein, of a jaw hinged to one end of the frame, two rollers journaled in said jaw and adapted to rest saddlewise over the fluted roller when the jaw is closed, and two sets of brushes hinged to said jaw, one on each side of the rollers, substantially as set forth.

'7. In a holder for the purpose specified, the combination, with the frame and a yoke adapted to loosely engage one end of the frame, of a jaw hinged to the opposite end of said frame, the free ends of the sides of said jaw being bent upwardly, a roller j our naled in said upwardly-bent ends, and a rope connecting the yoke to the said roller and adapted to wind 011 the latter, substantially as and for the purpose set forth.

8. In a holder for the purpose specified, the frame, a yoke adapted to loosely engage one end of the frame, said yoke being provided with mortis'es, and pulleys journaled in the mortises, combined with a jaw hinged to the opposite end of the frame, a roller journaled in the free end of the jaw, and a rope passing under the pulleys and attached at each end to the said roller, substantially as set forth.

9. In a holder for the purpose specified, the frame and a yoke adapted toloosely engage one end of the frame, combined with a jaw hinged to the opposite end of the frame, a roller j ournaled in the free end of thej aw, arope connecting said yoke to the roller, and a spiral spring attached at each end to the rope, the rope between the ends of the spring having a certain degree of slack, substantially as set forth.

10. In a machine for cleaning fiber, the combination, with the main frame and shafts carrying scrapers journaled therein, of bearings hung on said shafts, threaded pins pasing through the bearings on one shaft and bosses on the main frame, whereby said bearings are rigidly held in position, chains attached to the other bearings and leading in opposite direct-ionsthereform, tension-springs acting 011 the opposite ends of said chains, and tension-rollers mounted in said bearings, substantially as specified.

11. In a machine for cleaning fiber, the combination, with the main frame and shafts carrying scrapers journaled therein, of bearings hung on said shafts, each of said bearings being in two sections adjustably connected together with a threaded pin, and tension-rollers journaled in said bearings, substantially as and for the purpose specified.

12. In a machine for cleaning fiber, the combination, with the main frame, shafts carrying scrapers j ournaled therein, and means,

. substantially as described, for revolving said shafts and scrapers in opposite directions, of bearings hung on said shafts, tension-rollers journaled in said bearings, pulleys at the ends of said tension-rollers and at the ends of hinged bearings and the main frame, as and one of said shafts,p'u1leys journaled in bearfor the purpose setforth. xo ings hinged to the main frame, one on each In testimony whereof I have hereunto set side thereof, a cord rove around the pulleys my hand and seal.

on each side of the machine, so as to revolve WILLIAM G. MCBRIDE. [L. s.] the tension-rollers in the same direction as Witnesses:

that of the scrapers immediately above them, JOSEPH I'I. PORTER,

and a spring-adjusting deviceattached to the WM. E. MILLARD.

Images