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Publication numberUS134626 A
Publication typeGrant
Publication dateJan 7, 1873
Publication numberUS 134626 A, US 134626A, US-A-134626, US134626 A, US134626A
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Improvement in pumps
US 134626 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

2 Sheets--Sheet i.


Pumps. 10.134,626.

d, Ifgj.

Patented Jan.7, 1873. 129.2.


- W'ffmw n 2 Sheets-Sheet2.



Patented Jan. 7, 3873.

4M, PuoToAL/THOGHAPH/c co. Mffosonm's Mums) y ing the several andcombined features of my invention.



Specification forming part of Letters Patent No. 134l,626, dated January 7, 1873.

To all whom it may concern:

Be it known that I, JOHN S. BARDEN, of

the city and county of Providence, in the" State of Rhode Island, have'invented certain new and useful Improvementsin Pumps.

My improvements relate not only to that general class of single and double acting forcepumps in which a plain cylinder-chamber open at rboth ends is combined with a solid piston and located within an inclosing-chamber which is divided into suitable chambers; but also to thecommon liftingpump. My invention consists, partially7 in combiningivith a piston and cylinder a novel baud-valve, which, by its owninherent elasticity, maintains proper relations' with its valve-ports, and exercises its valve functions in opening and closing With-v outhammering on its seat and without liability to be rendered inoperative by the introduction betweenA it and its seat of any stony or earthy matter which might possibly enter through the valve-ports. (This novel bandvalye constitutes'the subject-matter of a separate application, andis therefore not intended to beembraced within these Letters Patent.) Also, in a4 novel combination, within an inclosing-vcase, of apiston,V an interior pistonchamber, two exterior or surrounding chambers communicating with the interior'chamber through suitable valve-ports, and a suit-` able number Yof elastic band-valves, which are arranged .tqvgguard they valve-ports and permitV the kpufmpto draw'and force water with ease and steadi'ness'7 and wholly without the shock and blow upon thelvalveseats, whichresults from the so-call'ed water-hammer.77 usually attendant upon the reversal of the movement of such pistons when rapidly operated; and I do hereby declare `that the followin g speeilicat tion, taken in connection with the drawing furnished ,and forming a part of the same, is a clear and tru'e description of pumps embodyy/tli'efdrawing, Figure 1 repre- Rferrnglt sents, in perspective, one of my pumps ar ranged to operate-vertically Fig. 2y represents, in vertical` section, one of my doublel,

acting pumps; g. 3 represents', in horizontal section, the pump :shown in Fig..2 on line X. Y; Fig. 4 represents, ,in section, theosame on line Y Z of Fig. 2;A Fig. 5 represents, in section, the same online WX; Fig. 6 represents the pump, in vertical section, on a line trans-k verse to that shown in Fig. 2; F1g.7 represents, in perspective, the walls of the valvel chambers, as if detached from the pump; Fig. 8 represents, in perspective, the elastic bandvalve detached; Fig. 9 represents, in longitudinal section, a pump-piston well adapted for use with my pumps; Fig. 10 represents,

Ain perspective, the cup-like leather-surface packing of the piston; and Fig. 11 represents, in section, the interior arrangement of a simple lifting-pump, to which my band-valve is adapted.

A denotes the piston. It is composed in thisi'nstance of duplicate parts a and b of suitable depth or thickness. These parts, each of'which is a practically-perfect piston, are both mounted upon the piston-rod consecutively, and secured thereto, near the end, in the usual manner, so that the adjacent faces of the two maybe pressed together and bind between them that portion of the packing which is interposed. Each part or piston`(see Fig. 9) is provided with a peripherf v ical groove, in which is placed one or two elastic packing-rings, c, composed of vulcanized rubber, l'orV of any other suitable material, backed up by any of the well-known kinds of ring-springs adapted to analogous purposes. The surface-packing d is cup-shaped, as shown in Fig.10,jand is preferably composed of leathcrproperly prepared as usual for the pur'- pose, although other materials possessing analogous characteristics may be employed with approximate results. The packing d may be formed from a flat disk of leather, in molds, or by cutting a disk with a diameter equal to that of the piston, plus its thickness, applying it while wet, and securing it thereto, either between two pistons, as shown, or between one piston and a metallic disk of corresponding diameter. After brief use in the pump the leather disk will assume and retain the desired form.` Vlh'en employed upon a valvepiston1 an annular disk with an open center may be employed to secure the cup-like packing( also withl anopen center) to the piston by the aid of rivets or screws. The elastic packing-rings Q .,gyvhen in position, constantly force the paekingjinto proper contact with the cyl-l inder. 4When used in an ordinary lifting` t pump I prefer that the cuplike `edge should project upward. When used with a single' actingforce-pumppreferthatthecup-likcedge should project in the same direction that the piston will travel in while forcing water. In a double-acting pump the piston should be double, as shown, with the packing d projecting in opposite directions. B denotes the piston-cylinder. 1t is open at both ends, and inclosed by an exterior cylinder, B,which is divided into two interior subdivisions by means of the vertical partitions e, which extend from bottom to top and from the exterior ot' the piston-cylinder B to the interior of the exterior cylinder B. One of these main chambers is designated as C, which`may properly be termed the induction-chamber, and the other, marked D, as the eduction-chamber. They are respectively connected with the supply and discharge pipes. C denotes a chamber which communicates with,-and is in fact an extension of, the induction-chamber C. The wall f of this chamber is parallel with the piston-cylinder, and describes a halt' circle, extending from partition e on one side around to the partition on the opposite side. f is perforated with numerous induction-valve ports, g, and its convex surface is in fact the valve-seat of the induction side ot' the pump. D" denotes another chamber, which com municates with, and is in fact an extension of, the eduction-chamber. Its wall h is provided with numerous educton-valve ports t', and its convex surface is in fact the valve-seat of the eduction side of the pump. The great superticial area ofthe wallsfand h admit-s of many valve-ports thereimand any practically desired area of valve-opening can therefore be readily attained.. E and F denote, respectively, the lower band-valves which guard the induction-valve ports g and eduction -ports t'. In this instance the two valves are represented as it' made in one piece, in the form of a wide annular band, show n in perspective in Fig. 8. It is composed ot' elastic vulcanized rubber, so arranged that it will bear with proper force upon the valve-seats, which are merely the outer or. convex surfaces ot' the walls f and h. Thisringencircles these walls,passingthrough openings in thev partitions c, as seen in Fig. 6, provided for that purpose, which can be made accessible by means of slots, for instance, extending from the ends of the pump. In Fig. 7 the walls f and h are represented as if detached entire, and in perspective for the purpose ot' illustration. Instead ot' this circular compound valve-band two separate ones can be protably employed, each of which would be equal to one-half the one shown. When so formed, however, it becomes necessary to secure each end with proper tension, so as to cause the band-valve to press with proper force upon its convex valve-seat.

For a double-acting force-pump the several chambers, valves, &c., are duplicated, as shown in Fig. 2.

The operation ofsuch a pump may be'brief- The wall 11y described, as. follows:. While thepiston ass lcends the valve E,.by suction, is opened, and

Water will be drawn into the lower end of the main piston-cylinder chamber B. Meantime if the piston-cylinder be full of water thc piston, as it rises, will force the water in the upper end of the cylinder B, through the ports guarded bythe upper valve F', into the eduction-chamber D. On completing this .movement and commencing the descent, the piston, by pressure, would close the lower valve E, guarding the ports g, and force the water already drawn in outward through the lower valve F, which guards the ports t'. Meantime the upper valve E will have been opened, and through its ports a charge of water will have been drawn from chamber C, and so on at each stroke ofthe piston.

In order to secure free ingress and egress of water over and under the edges of the bandvalves, certain projected bearings m are employed, o n which the band-valve may touch, and between which water may freely tlow when the valves are distended.

A common lifting-pump is represented in section in Fig. l1, illustrating the combination therewith of an ordinary valve-piston and my novel band-valve. The holding-valve in this instance4 consists of au upward-projecting annular partition, G, which has vertical sides, perforated with numerous ports H, through which the water is to be drawn into the body of the pump. The annular band-valve I eucircles the vertical perforated sides, which constitute, in fact, the valve-seat. When the valve-piston ascends the band-valve is distended, and water drawn into the body of the pump. When the movement ceases, and while the open-valve piston descends, the band-valve prevents the downward passage of the water.

There is seldom much strain on the bandvalve, and, as none of the ports need to be of great area, it can be made thin and light. The force requisite to expand or distend the bandvalve is so slight, in addition to that necessary for the draft ot' water, that the difference between the power requ red for working a pump of this character and one of ordinary construction would be hardly perceptible, all things being otherwise equal.

There are many advantages possessed by my pump over any with which I am acquainted, among which are the following: It can be constructed at less cost than any other pump known to me-for instance, the pump shown in Fig. 2 can be made practically operative with but little machine-work, except the turning out ot' the piston-cylinder, fitting the piston and rod, and certain screw-bolts for securing the pump-heads to the outer case B', and connections for vinduction and eduction.

With great variety in the arrangement of the inclosing-case and the several chambers the entire shell canl be castI with` the .sevferal induction and eduction valve-ports; and, if ordinarily smooth `and free. from positive defects, the convex surfaces of walls fand h will, with good'results, receive the bandvalves, which, by their general elasticity, will conform to said surfaces, and form therewith a valve-tight joint. (t may, :no doubt, be' preferable to have th'e convexvalve surfaces turned off, but practically-valuable results may certainly be attained without it.

rlhe band-valve involves no hinge-connections, no accurate fitting or grinding, and so long as the inherent elasticity is retained therein its functionsiwill be properly performedA There is but little wear upon the valve-seat except that which results from the passage 'of water or` earthy matter over it. Corrosion will, of course, occur, as in all cases with metallic pumps. It is evident that the wear on the seat or the corrosion will occur with considerable uniformity all over the surface, and

therefore that the band-valve will continue,

regardless thereof, to operate with nearly as good results as when the pump was new.

Whenever earthy or stony matter in passing the valve is caught between the bandvalve and its seat, the thin elastic band closes down about it on all sides, and, by proper contact with the seat at surrounding points adjacent thereto, will still properly act as a valve and. release the stone at its next movement. A double-acting pump, for instance, constructed substantially as shown in Fig. 2, is practically free from all objectionable jar or .shock generally known as water-hammer, at

the reversal ofthe movement of the piston,for the opening` and closing of the valves is easily and gradually accomplished. The widest opening of the band valve from its seat occurs at that f point which is midway between the points at which it is secured, and the opening gradually lessens each way to those latter points. Their movement is as prompt as could be desired, and from the fact that at each closing movement the valve is really water-cushioned, it is practically impossible for the closing movement to be other than easy.

Although I have described my elastic bandvalve and the piston in connection with pumps adapted to the lifting and forcing of liquids, it will be readily obvious that they have special value in connection with air or vacuum pumps; and also that the band-valve possesses the desirable characteristics which will enable it to successfully perform the simple service of a check-valve, which will allow gases, air, or liquids to flow through it under a slight pressure or other actuating force, and permit no retrograde movement thereof, as in fact it performs that service only in the lifting-pump herein described.

I am well aware that pumps employing the elastic band-valve can be constructed with the interior arrangement of the piston-cylinder and chambers in an almost endless variety; and I therefore do not confine myself to any of the precise constructions shown. I am also well aware that prior to my inven tion pumps have been made in which the interior piston-cylinder has been combined with exterior chambers of a similarly general character to those herein described, and that they have been provided with numerous valve-ports, each of which was guarded by a separate spring-valve or others of that character. Also, that iiap -valves composed of leather, gum elastic, or similar material have been combined with concave valve-seats; and that said aps have been secured at each end in such a manner that each ap would belly in against the seat when closing the valve, and then belly out for the opening. I am also aware that valve-pistons have been made in the form of an inverted hollow cone, and tted with certain cup-like or conicalv valves, which, by the weight of the water contained therein during the elevation of the pistons, caused said valves to maintain proper relations with their seats.

-I am not aware, however, that prior to my invention one or more pump-valve ports have ever been combined with or guarded by abandvalve, which, while secured at opposite points adjacent to the surface of the valve-seat, would guard said ports by its own inherent elasticity or elastic force.

I therefore claim as new and desire to secure by Letters Patentl. The combination, with a piston-pump, of the requisite valve-ports, having a suitable seat or seats, and the ela-sticband-valve' embracing the seat, substantially as and for the purposes specified. Y

2. The combination of the piston, its cylinder, the inclosing-case divided into induction and eduction chambers, the several induction and eduction valve-ports, and the elastic bandvalves E F, substantially as andfor' the purposes specified. f



Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2518619 *Aug 16, 1948Aug 15, 1950New York Air Brake CoCylindrical ring valve for multicylinder pumps
US4822261 *Oct 13, 1987Apr 18, 1989Avery Don ELow head, high volume pump apparatus
WO2008045018A2Jun 21, 2006Apr 17, 2008Lucent Technologies Inc.Method of preventing detonation of a mobile-terminal-triggered explosive device
Cooperative ClassificationF04B53/00