US150044A - Improvement in hydraulic attachments for cotton-presses - Google Patents

Description

2Sheets--Sheet1.

' S. HUGHES. Hydraulic-Attachments for Cotton-Presses.

No.150,044, 55 ratented'A rnzlng m WK. W R] Whammy:

2 Sheets-Sheet 2.

s. HUGHES. Attachments for Cotton- Presses.

Hydraul No'. 150,044.

Patented April 21, 1874.

.. NITED STATES PATENT @FFIfZE.

SAMUEL HUGHES, OF CHARLESTON, SOUTH CAROLINA, ASSIGNOR TO HIMSELF AND MICHAEL KELLY, OF SAME PLACE.

IMPROVEMENT IN HYDRAULIC ATTACHMENTS FOR COTTON-PRESSES.

Specification forming part of Letters Patent No. 150,044., dated April 21, 1874 5 application filed November 1, 1873.

To all whom it may concern:

Be it known that I, SAMUEL Hoenns, of the city and county of Charleston, in the State of South Carolina, have invented certain Improvements in Power-Presses for Compressing Cotton, Baling Goods, and other purposes, of which the following is a specification:

This invention generally consists in a hydraulic attachment to a directacting leverpress operated by steam, whereby the full power of the press may be exerted in every instance, and each succeeding charge of material may be similarly compressed, as regards bulk, without repetition of the compressing action, and whereby time, labor, and expense are economized, and other advantages are obtained.

Prior to describing my invention, it may be observed that inlever-presses-as, for instance, in the kind known as the progressive-lever press, used for pressing and baling cotton, and in which the actuating power is steam, brought to bear upon a piston arranged within a cylinder, and connected with the levers by which the moving platen is operated-4t is known that, unless the piston of said steam-cylinder travels the whole length of its upward or compressing stroke, the full power of the press is not exerted on the material under compression, and no two succeeding bales or masses can be compressed to the same bulk or density unless they are of the same density and size before being compressed, excepting by removing or adding packing, usually termed slliftingboards and the compressing action of the platen being repeated on the mass. It accordinglynot unfrequently takes two, and sometimes three, cylinders full of steam to fully or properly compress a bale of cotton.

By my invention, each bale or mass may be compressed to the same density or bulk at or by a single compression, and the only limit to the power of the press is the strength of the material used in the construction of it. My invention can readily be applied to steam or power presses already in use, and the latter be made more powerful, requiring 110 double pressing of a single bale or mass, and dispensin g, if desired, with all packing or shifting boards to follow up the action of the platen;

In the accompanying drawings, Figure 1 represents a partly-sectional side view of my invention as applied to an ordinary progressivelever press actuated by steam. Fig. 2 is an end view of the same. Fig. 3 is a plan of the hydraulic-cylii'ider portion of the attachment. Fig. 4 is a vertical longitudinal section, upon a larger scale, of my hydraulic-power attachment in part Fig. 5, an end view of the same, with the rear steam and exhaust valve portion thereof in section; and Fig. 6, a plan of the valve-gear of the steam portion of the hydraulic-power attachment.

Similar letters of reference indicate corresponding parts.

A is the steam-cylinder of an ordinary progressive-lever press, the piston-rod of such steam-cylinder having the usual double rack 13, which is arranged to gear with the two toothed sectors or levers G O, that are connected by rods or pitman D D with the movable bed or platen E, the upper bed or platen F being stationary. This, with the exception of certain details of construction, as hereinafter referred to, is similar to other presses now in use. draulic-power attachment. The piston-rod H of this cylinder passes through a stuffing-box in the head of the steam-cylinder G, and is provided on its outer end with a plunger, I, arranged to work closely within a hydraulic cylinder, J. K is a check-valve, opening downward, and connected by a pipe, I), with the hydraulic cylinder J. L is a hydraulic-ram cylinder or chamber, arranged to rest upon a suitable foundation below the moving platen E, and connected with the upper stationary platen F of the press by bolts (Z d. This cylinder L is connected from below by a pipe, U, with the chamber of the check-valve K, in direct communication with the pipe I) of the cylinder J, and said cylinder L fitted with a ram, M,'ar ranged to project up through it. This ram M is provided at its top with a curved saddle, S, which is fitted to the underside of the moving platen E. The connecting-rods or pitman D 1) of the press have elongated eyes or slots'e e at their lower ends, to admit of the platen E bein g forced upward after the piston of the steamcylinder A has completed its upstroke, and

G is the steam-cylinder of the hythe levers or sectors 0 C have been moved to a position which terminates the upward pull of the rods D D. N is a reservoir, placed above the level of the hydraulic ram, the check-valve K, and the cylinder J, and connected by a pipe, b with the check-valve chamber above the valve. 0 is the pipe by which steam is supplied to the engine-cylin ders A and G, which are fitted with any suitable valve mechanism, including separate steam and exhaust valves, a lever, 1?, serving to operate the steamvalve f and exhaust-valve g of the cylinder G; also, the check-valve K. Thus the movement of the levers P l to an intermediate position causes all of said valves to. be closed. By moving the levers P l? to the right, the steamvalves fit and check-valve K are opened, the exhaustvalves g and 2' remaining closed, and by moving said levers to their extreme left, the exhaust-valves g '6 are opened and the steam valves f and h closed. The several valves hereinbefore referred to are operated by means of rock-shafts, toes, wipers, and other suitable connections. The piston G of the cylinder G is prevented from striking the heads of the latter at either end of the stroke, by coming in contact with rods k 70 running through the cylinder-heads and connected on the outside with levers, which in their turn are connected by rods to other levers secured to the rock-shafts that operate the steam-valves, so that as either rod 70 7V" is forced outward by the piston G it opens the steam-valve at such end of the cylinder and admits steam to act as a cushion to the piston. The steam-valve l at the forward end of the cylinder G is closed by a weight on the end of the valve-stem, and is opened only when the piston G comes in contact with the rod The exhaust-valve m, at such end of the cylinder, is opened by a lever and weight, n, and closed only when the piston G strikes the rod, which causes the wiper operating the valve to leave the toe, when a weight on the end of the valve-stem closes the valve. The valves and valve mechanism 111 a y, if desired, be of any other suitable kind.

To operate the press, fill thereservoir N with oil,water, or other suitableliquid, and open the check-valve K, thereby allowing the liquid to fill the cylinder J and the pipes connected therewith. Abale or mass, Q, of the material to be compressed,havingbeen placedupon the platen E, steam is admitted to the cylinder A, by opening the steam-valve h. This causes the piston of said cylinder to ascend, and, by means of the rack D, toothed-sectors or levers U Q, and connecting-rodsD D, draw up the platen E until said piston reaches the end of its stroke, or is stopped by the resistance of the material being compressed. By reason of the attachment of the ram M to the platen E it is carried up along with the platen, and the check-valve K being open, the liquid from the reservoir N flows through the connectin g-pipes into the ram-cylinder L, and fills the space valve K opened.

previously occupied by the ram. A finishingpressure is then given to the bale by admitting steam to the rear end of the cylinder G by opening the steam-valves. This causes the piston G to move forward, and with it the plunger I, which forces liquid from the cylinder J through the connectingpipes b b (closing the check-valve K) into the ram-cylinder L, thereby forcing the ram M and platen E still farther up and powerfully compressing the bale between the platens, the elongated eyes or slots 0 e in the rods D D admitting of such continued action of the platen E. The bale having been properly tied and ready for taking out of the press, the steam-valve fis closed and the exhaust-valves g i and check- The weight of the movable platen, sectors, and connecting-rods, together with the yielding of the compressed material, causes the platen E and ram M to descend, forcing the liquidfrom the cylinder L through the pipes b I) into the reservoir N, and by the pipe 1) into the hydraulic cylinder J, thereby driving backward the piston G to the rear.

end of the cylinder G. The piston G maybe assisted in its backward movement by setting it and its cylinder slightly inclining, as represented. The same operation is repeated for the next bale or mass, and so on, successively, for any number of bales, &c., all of which will be compressed to the same bulk or density.

The circulation is kept up of the liquid between the vessel and cylinder J L by the opening and closing of the check-valve K at each compressing operation, whereby is insured a constant fresh supply of cooling-liquid to the exposed packin gs, rendering them more duraable.

I claim as my invention- 1. The combination, with the piston and steam-cylinder A of a lever power-press, of the auxiliary hydraulic cylinder or chamber L and ram M, arranged in relation with the platen E, substantially as specified.

2. The rods D D of the lever power-press, provided with elongated eyes 0 c, in combination with the platen E and hydraulic jack or ram M, essentially as described.

3. The combination of the steam-piston G and its cylinder with the plunger 1, the cylinder J, the cylinder or chamber L of the ram M, the pipes 11 b, the platen E, and the steameylinder A of a lever power-press, essentially as described.

4. The reservoir N and pipe I)", in combina tion with the check-valve K and pipes I) 1) connecting the hydraulic cylinder J with the chamber L of the ram, all arranged for opera tion in relation with each other, substantially as specified.

SAMUEL HUGHES.

' \Vitnesses:

Honnrro HUeHEs, H. BOLGER.

Images