US345041A

US345041A - Edouaed fjxaby

Info

Publication number: US345041A
Authority: US
Publication date: 1886-07-06
Anticipated expiration: 1903-07-06

Description

(No Model.) 2 Sheets-Shet 1.

B. FIXARY.

PACKING PISTOE RODS 0F REPBIGBRATING MACHINES. No. 345,041. Patented July 6,1886.

1137.1. r J L I Q 7 M h f b a" a a a a o I I I, o a \:D

g is l B a E- I 0 po 6 I v INVENTOR;

Y WITNESSES: izo wroo his .dttorneys,

" (No l.) '2 Sheets-Sheet 2. E. FIXARY.

v PACKING PISTON RODS OF RBFBIGERATING MFQQHINES. No. 345,041. P 5 Patented 3% 6, 1886.

WITNESSES. dg /5mm;

I W By his .dttorneys, 5 Wm M M N, PETERS. man a-Lithographer. Walhingwfl. v.0.

EINITE STATES FDOUARD FixAaY,

PATENT OFFICE.

OF PARIS, FRANCE.

PACKING PESTON-RODS OF REFRlGERATlNG-IVIACHlNES.

SPECIFICATION forming part of Letters Patent No. 345,041, dated July 6,1856.

Application filed February 23, 1586. Serial No. 192,798. (No model.) Patented in France February 21, 1885, No. 167,210; in England February .25, 1885, No. 2,387; in Belgium June 6, 1885, No. 69,195; in Lnxemburg June 6, 1885, No. 637, and in Italy June 9, 1885,

XIX, 18,588.

of which the followingis a specification.

My invention relates to a mode of packing and lubricating the piston-rods of both single and double acting compression-pumps employed in compressing the vapors or volatile liquidssuch as ammonia-hydride, for example-commonly employed in machines for refrigerating or freezing; and the object is to utilize the lubricant under the influence of cold and pressure as a packing for the rod.

My invention will be hereinafter fully deupon the inclosed bushingsccand cylinder b,

scribed, and its novel features carefully defined in the claims.

In the drawings, which serve to illustrate my invention, Figure 1 is a sectional view I taken in the plane of the axis of the pistonrod, showing the application of my invention to a double-acting compression-prim p; and Fig. 2 is a side elevation of saidpu mp on a smaller scale. Figs. 3, 4, and 5 illustrate the application of my invention to adouble-cylinder single-acting compression-pump. Fig. 3 is a sectional elevation in the plane of the axes of the piston-rods, the valve-casings being in elevation. Fig. at is a side elevation, the wall of the basin around the valves alone being in section; and Fig. 5 is a section, on a large scale, of the stuifing-box of one of the pistonrods.

I will preface the detailed description of the means I usually employ for carrying out my invention by saying that I effect the combined lubrication and packing of the piston-rod by introducing the lubricantany suitable lubricating-oil, for exampleunder pressure to an annular chamber surrounding the piston-rod, and subject the lubricant in this chamber to intense cold, wherebyit is'hardened and compacted. This insures the propel-lubrication of the rod, and at the same time packs hermetically the joint where the rod passes out from the cylinder, and thus prevents the cscape of the gas.

Referring first to Figs. 1 and 2, A represents cylinder I).

' the cylinder of a double-acting compression pump-such as is commonly employed in refrigerating-machines-and a a are theinletvalves. I have not deemed it necessary to show all the details of this pump, as these are well known and form no partof my invention. B is the piston-rod of the pump, which passes out through a sleeve, 0, on the head D of the pump. Within sleeve 0 is placed a cylinder, 1), and bushings c c, which fit the piston-rod snugly. These bushings form heads for the \rVithin cylinder b, and next to the piston-rod, is a chamber, d, which receives the lubricant, and within the wall of cylinder Z), and surrounding chamber d, is an annular chamber, 0, which I call a "freezing-jacket. E is a follower, which slips over the pistonrod and screws into the sleeve 0 and down and in this follower are formed an oil-receiver, f, and a channel or channels, 9, which connect receiver f with the chamber d. On the recciverfis mounted an oil-supply reservoir-or cup, 71, from which oil may from time to time be supplied to reeeiverf. Fis a pipe, which connects receiver f with some fluid under pressure, the admission of the fluid being controlled by a cock, t. This pressure on the oil in the receiver forces the oil through the channels g into chamber d. The freezing-jacket e is connected on the one side by a pipe, j, with the suction oraspirating side of the pump and on the other side with the ammonia-receiver by a pipe, it. Thus the jacket 6 is in the circulation of the expanding volatile liquid, and the expansion therein will produce intense cold, which will freeze the oil in the chamber (1 solid. This oil thus becomes not only a lubricant for the piston-rod, but also a hermetic packing therefor, which will prevent the escape of gas from the cylinder of the pump. From the oil-receptacle f a pipe, 1, leads through pipe j to the suction-pipe m of the pump. This pipe Z is controlled by a cock, n.

The operation is as follows: Oil is admitted to receptacle f'froni cup h, and the cup is then cut off by the cock o,contro11ing thepassage con- Gas under pressure is now add meeting them. mitted to the oil-receptacle through pipe F by opening cock 1'. This pressure forces the oil into the chamber d through channels g. The cock 1), controlling the connection of pipe is with the freezing-jacket e, is now opened and at once the oil in chamber (1 is congealed. The heat absorbed by the constantly-expanding gas in the freezing-jacket keeps the temperature low at that point, and as the congealed lubricant wears away its place is supplied by oil from receptacle f, which oil is in turn congealed. In order to lubricate the valves and piston of the pump, the cock a in pipe I is opened a very little, and the pressure in the oil-receptacle forces the oil, drop by drop or in quantity as required, to pipe m, whence it. finds its way through the valves to the interior of the pump-cylinder. v 7

Referring, now to Figs. 3, 4, and 5, A A represent two single-acting cylinders,,having piston-rods B Band pistons B B. These cylinders are provided with suitable valves, a,of the usual construction. The cylinders are connected at their lower ends, forming a single I oil-chamber, f. The oil is suppliedto chamber f through a pipe, h, controlled by a cock, 0. This inlet is arranged at such a height as to maintain a proper oil levelthat is, the pistons should dip into the oil at the end of their downstroke; but space should be left above the oil for free circulation of gas between the cylinders over the oil. The gas under pressure-is admitted to chamber f over the oil by a pipe, F, controlled by a cock, i. C is the exterior sleeve on the lower cylinder-head, throughwhich the piston-rod passes out, and

d is the annular chamber around the pistonrod',which contains the congealed lubricant. This chamber communicates direct with the oil in receptacle f and is supplied therefrom. Surrounding the two chambers d and connectingwith each other are the annular freez' jackets e e, which are by preference constructed to extend out laterally into the metal ofv the cylinder-head through nearly its entire area. The volatile fluid is admitted tothe freezing-jackets by a pipe, k, controlled by a cock, and passes outat pipe j. (Seen in Fig. 4.) I have shown the piston-rods in these views provided with ordinary stuifingboxes, and I sometimes employ thesealso as a precaution against the leakage of gas; butI may omit them. The bushings c c, Fig. 1, may also be omitted, or may form integral parts of cylinder 1).

Having thus described my invention, I claim- 1. The herein-described method of lubricating and packing the piston-rod,which consists in supplying the liquid lubricant to the lubricant-chamber around the rod continuously, and constantly maintaining the lubricant in said chamber at a temperature low enough to congeal the same, as set forth.

2. The herein-described method of lubricating and packing the piston-rod,which consists in supplying the liquid lubricant to thelubri-' cant-chamber around the rod under a constant pressure and constantly maintaining thelubricant in said chamber at atemperature low enough to congeal the same, as set forth.

3. The cylinder'of a compression-pulnp provided with an annular lubricant chamber around the piston-rod, an oil-receptacle communicating with the said chamber, a freezing jacket around said lubricant chamber, and

means, substantially as described, for refrigcrating the lubricant in saidchamber, substantially as set forth.

4. The combination, with the piston-rod of the compression-pump, of the pump-cylinder provided with a sleeve, C, out through which the piston-rod passes, the cylinder b in said sleeve furnished with a lubricant-chamber,'d,

and a freezing-jacket, e, the follower E, furnished with an oil-receptacle, f, a channel communicating with chamber d, and an oil-inlet, and means, substantially as described, for effecting constant refrigeration of the lubricant iii-chamber d, substantially as set .forth.

In witness whereof I have hereunto signed my name in the presence oftwo subscribing witnesses.

EDOUARD FIXARY.

Witnesses:

Row. M. HOOPER, AMAND BITTER.