US320363A - judge - Google Patents

Description

(No Model.) 2 Sheets-Sheet 1. E. S. JUDGE. CAN FILLING MACHINE.

Patented June 16, 1885.

WITNESSES:

INVENTOR:

Attorn ey.

n. PETERS. Pholo-Lnhaguphw m.

(No Model.) 2 Sheets-Sheet 2. E. S. JUDGE.

CAN FILLING MACHINE.

Patented June 16 INVENTOR:

WITNESSES:

a wuvns aflaw,

Attorney.

UNTTnn STATES PATENT @Tinen.

EDWARD S. JUDGE, OF BALTIMORE, MARYLAND, ASSIGNOR TO THE VAR- FIELD MANUFACTURING COMPANY, OF SAME PLACE.

CAN-FILLING MACHINE.

SPECIFICATION forming part of Letters Patent No. 320,363, dated June 16 1885.

(No model.)

To all whom it may concern:

Be it known that I, EDWARD S. JUDGE, a citizen of the United States, residing at Baltimore, in the State of Maryland, have invented certain new and useful Improvements in Can-Fillin gMachines, of which the following is a specification.

My invention relates to an improved machine for filling cans, and is designed for use in packing-houses where vegetables, fruit, and meats, &c., are put up in cans.

The object of the invention is to provide, in combination with a can-tillin g machine, means for exhausting air from the can to be filled, to the end that the vegetable or other material will readily enter the can because of the vacuum or partial vacuum which the can presents. The construction whereby the desired result is accomplished will be described in connection with the accompanying drawings, which illustrate what is deemed the best means of carrying the invention into effect.

Figure 1 is a side elevation of a can-filling machine having my improvement. Fig. 2 is a vertical section of the pump or air-exhauster. Fig. 3 is a view of the can seat and lifter. Fig. 4 is a horizontal section at a: to, showing the valve parts. Fig. 5 is a rear end elevation of the machine. Fig. 6 is a vertical section of a can, the hopper-bottom, and valve, the latter on the line; 2. Fig. 7 is a bottom or inverted view of the valve. Fig.8 is a vertical section of the hopper and valve on the line y 9 Fig. 9 is a top view of the sliding cut-off of the valve. Fig. 10 shows a modification wherein a plunger is used.

The letter A designates the frame or stand which supports the various parts of the machine; B, the hopper which is to contain the vegetable or other material; 0, the strainingtrough, having a perforated or slatted bottom, a, to deliver the material into the top of the hopper, and a tight bottom,b,below, by which the juice or water drained from vegetables is directed to the pipe D.

The above-named parts are of the ordinary construction. The bottom of the hopper is funnel-shaped, as at B, and at the smallest part is provided with a discharge-orifice, c, which is controlled by a valve. The dischargeorifice and valve are constructed of and in a nipple, B", which has a horizontal grooved slide, d, which projects at one side of the orilice, 0, in which the sliding cut-oft 0 moves. Below and in contact with the sliding cut-off e is a thin plate, d, which has its parallel edges (1 attached to the grooved slide d, and one of its ends, (1 attached to the side of the orifice opposite that where the grooved slide projects, while a hole in the thin plate, of the same size as the orifice, is coincident therewith. The sliding cut-off 0, therefore, fits close against the thin plate d below it. An elastic ring, f, (preferably a tubular rubber ring,) is attached to and below the thin plate (1, so as to surround the discharge-orifice, and serves to produce an air-tight connection around the top opening, f, of the can F. By this construction the can-top may be brought up against the elastic ring, and then the cutoff 6 moved sidewise away from the orifice 0, whereupon any vegetable or other material in the hoppergmay pass down into the can, and means to facilitate this by first exhausting air from the can comprises the leading feature of my invention. At one side of the discharge-orifice cis an air-exhaust opening, g. (See Figs. 6 and 7.)

It will be seen the orifice c, for discharging the vegetable or other material from the hopper into the can, and the opening g, for exhausting air from the can, are both surrounded by the elastic ring f, so that the latter makes a tight connection for both. A pipe or tube, 9, enters the side of the nipple B where it connects with the exhaust-opening, and from the side of the nipple thesaid pipe 9 extends upward, close alongside of and attached to the hopper, and thence to the air-pump D. Provision is made for disconnecting the exhaustpipe from the air-pump by means of a coupling, h. \Vhen so disconnected, the hopper, with the exhaust-pipe attached, may be lifted from its seat. The hopper is retained to its seat in the frame by any suitable means, h, capable of resisting the force exerted by the can-lifting mechanism below. The air-pump is a simple cylinder, D, having an open bottom, (see Fig. 2,) and provided with a piston, i, to which a pistonrod, i, is attached. On top of the pump-cylinder is a dome, k, to which preferably the exhaust-pipe g is attached. The crown of this dome has a valve, 1, which closes when the piston moves down at time of exhausting air from the can, and opens when the piston moves up to allow the air in the pump-cylinder to escape. The lowerend of the piston-rod in the presentinstance connects with a treadle, E, by means of a connectingrod, m, and a spiral spring, a, has one end attached to the treadle and the other end to the table A of the frame. When the treadle is depressed,the piston imoves down, which results in exhausting the air from the can. Upon removing the foot fromthe treadle the spring n acts to raise both treadle and piston.

It is obvious that the air-exhauster may be operated by other means and power than the foot-treadle. It may have its piston-rod connected with a crank driven by steam or other power. The can Fis lifted against the elastic ring f, and movement is imparted to the cutofi' e by the following mechanism: A can-seat, F, has a shank, 0, projecting down below it, and a suitable stand, G, supports the can-seat while the shank 0 passes loosely through a hole, 1), in the stand. By this construction the can-seat may be lifted vertically. A lever, H, is pivoted above the table, and one end has position below the can-seat shank 0, and the other end, g, is bent down. A frictionroller, 1", is attached to a collar, 1", fixed on the piston-rod i, and is in position to press against the down-bent end 1 of the lever H. When the piston-rod moves up, the frictionroller 1" is released from engagement with the lever, and the canseat lowers by its own gravity. When the rod moves down, the roller 1 presses against the down-bent end of the lever. and thereby tilts it, which lifts the'canseat F and presses the top of the can against the elastic ring f. Thus the one treadle when depressed first lifts the can-seat to produce the lever I when the rod moves.

an air-tight connection of the top opening of the can with the dischargeorifice and the airexhaust opening, and, second, operates the pump-piston. The cut-off e is moved by a lever, I, pivoted at s, and a rod, t, connects the cut-01f 0 with said lever. A friction-roller, u, is attached to acollar, u, fixed on the piston-rod t", and is in position to press against Thus the roller u and lever I act as a camand open the valve by moving the cut-off sidewise away from the discharge-orifice. This orifice is closed by the cut-01f moving back, which movement in the present instance is made by the action of one or two springs, a, which connect the lever I and cut-offrodt with two rigid hangers, 'w.

Instead of springs 12 to move the cut-off back, the same may be effected by a cam arrangement like the roller 20 and lever I.

By the above-named arrangement a movement of the one treadle effects still another result-to wit, the opening and closing of the valve. p

It is obvious that the canseat may be lifted and the valve opened and closed bya trcadle or other equivalent means separate from that which works the air-pump, and my invention therefore is not restricted to the particular mechanism here shown.

If desired, the can-lifter, cut-off, and airpump may each be operated by wholly independent mechanism without departing from my invention. i

From the foregoing it will be seen that the air is first exhausted, or nearly exhausted, from the can, and then the vegetable or other material that is in the hopper will, when the valve opens, at once enter the empty can without causing any splash or squirting of liquid from the can, as is commonly the case with machines now in use. This serious objection to most machines now in use is here overcome by first exhausting air from the can, as herein described. I

By the use of an air-exhauster combined as described a plunger or other force-feed device as heretofore used in filling-spouts may be dispensed with, because, as a partial vacuum has been created in the can, the vegetable or other material will readily enter by the operation of atmospheric pressure on the surface of the contents in the hopper. An air-exhauster may, however, be used in combination with a hopper, filling-spout, and plunger, as indicated in Fig. 10, where the plunger is designated by the letter L.

Whether or not a plunger or other forcefeed device be used, the disagreeable splashin g or squirting is effectually avoided by first exhausting air from the can. My invention therefore is not restricted to the use or nonuse of any kind of force-feed device.

Steam-power may be substituted for the foot-treadle in operating the machine.

Having described my invention, 1 claim and desire to secure by Letters Patent of the United States 1. A can-filling machine having in combination a hopper with a discharge-orifice and an air-exhauster to withdraw air from the can, as set forth.

2. A can-filling machine having in combination a hopper with a discharge-orifice having an air-exhaust opening and an air-pump or equivalent exhauster connected with the said opening, as set forth.

3. A can-filling machine having in combina- 8. A can-filling machine having in combination a hopper with a discharge-opening, a vertioally-lifting can-seat, an air-exhauster to with draw air from the can, and a single treadle or equivalent means to operate the can-seat and air-exhauster, as set forth.

In testimony whereof I affix my signature in presence of two witnesses.

' EDWARD S. JUDGEu Witnesses:

JOHN E. MonRIs, J OI-IN T. MAnDoX.

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