US1977780A - Fluid pump and motor - Google Patents

Description

Oct. 23, 1934. Q Q $TAGEBEG 1,977,780

FLUID PUMP AND MOTOR Original Filed May 28, 1931 WITNESSES N OR ATTORN EY to the accompanying drawing in which Patented Oct. 23, 19.34.

UNITED STATES PATENT OFFICE Renewed February 20, 1934 Application-May 28, 1931, Serial No. 540,711

2 Claims. (01. 103-137) This invention relates to improvements in engines, pumps, compressors and the like and it consists of the constructiona'bombinations and arrangements herein described and claimed:

An object of the invention is to provide a device which is primarily intended for use either as a fluid pump or motor, one of the outstanding features being a piston that is rigid or fixed insofar as its dimensions are concerned, this piston being carried by'a rotor in which it is slidable by virtue of the novel form of the working chamber in which the ends of the piston are operable.

Another object of the invention, and one bearing directly on the foregoing statement, is to provide a piston which never shortens or lengthens in the carrying out of its rotor impelling function, sliding motion of the piston being solely dependent on the shape of the working chamber of the stator casting in which the rotor revolves.

Another object of the invention is to employ a peculiar symmetrical contour for the working chamber, which contour has the property of compelling simultaneous action at the projecting ends of-the unit piston thus insuring an absolutely uniform fluid stream from the device when used as a pump, and continuous power impluses when used as a motor.

A further object of the invention resides in the novel arrangement of ports or passages in the rotor which coact with the working chamber in such a manner as to' achieve the results last named.

Other objects and advantages will appear in the following specification, reference being had Figure 1 is avertical section of the convertable pump and motor, parts being shown in elevation. Figure 2 is a vertical section taken on the line -2-2 ofFigure 1.

Figure 3 is a vertical section taken on the line 33 of Figure 1.

Figure 4 is a detail edge view of the rotor. In carrying out the invention, provision is made of a stator, generally denoted 1, which comprises a block or casting 2' and end splates 3, 4 which are secured to the block 2 at opposite sides by means 5 (Fig. 1). In practice the stator will be mounted on an appropriate base or foundation so that it can be stood fixedly or movably, in any desired location.

The end plates 3, 4 are bulged (Fig. 1) to provide annular fluid chambers 6,! (Fig. 2). These chambers would be open at the places where they confront the rotor 8 (Figs. 3 and 4), but the sides of the rotor provide closures which complete the fluid chambers as plainly seen Figure 1. The

rotor 8 at 18. It is by virtue of the connection of the face plates with the rotor 8 that motion is imparted to the rotor 8 as when operating the device as a pump, or to the axle as when opera'ting the device asa motor.

'A recess 19 houses the bearing 14. Thisrecess is open internally only, leaving the outer surface of the plate 4 solid and'continuous. The

stub component 16 of the axle is thus concealed from view, minimizing the chance of foreign matter reaching the bearing 14. On the other side the bearing 13 is protected by a gland 20-that compresses a packing in a well known manner.

Inlet and outlet pipes 21, 22 (Fig. 1) function either for the introduction of pressure fluid and the exhaust in the event of operating the device as amotor, or for the induction and discharge of the fluid to be pumped when operating the device as a pump. These pipes communicate with .the chambers s, '1 which will always e full of the respective fluids. Since these chambers are annular (Fig. 2), it follows that there is a complete annular body of fluid adjacent to each side of the rotor 8. The rotor 8has intake ports 23, 24 (Fig. 3) and; exhaust ports 25, 26. The ports 23, 24,0pen into the chamber 6 (Fig.-1), in other words to the chamber at the far side of the structure as viewed in Figure 3. The ports 25 and 26 open into the chamber 7 (Fig. 1), in other words to the annular chamber (not shown) at .the nearside of the structure in Figure 3.

These two kinds of ports are located atthe op-' posite sides of the piston 27 which comprises a dividing element between the ports so that anintake and exhaustport' adjoin each other (forexample 23, 25) and an intake and an exhaust port (for example 23, 26) become segregated to one side of the piston.

Each of the ports has a radially directed but flaring opening 28 (Fig. 4) communicating with theperimeter 9 of the rotor, hence communicable with any one of arseries of' -pockets29, 30, 31 (Fig. 3) comprising the working-chamben. The

exposed ends of the piston 27 operate in these of the form herein shown will accomplish the 2 1,o77,7eo

pockets. The working chamber is equal in depth (Fig. 1) to the thickness of the stator casting 2, and since the rotor 8 accurately fits thedistance between the end plates 3, 4, it follows that the thickness of the rotor and the depth of the working chamber are approximately the same.

Much importance is attached to the shape of the foregoing working chamber. The contour is on such an order that a rigid plate can be employed as the piston 27. By ri'gid is meant that the piston comprises a singleQintegral piece, with no, compensating connections of any sort that would be intended to keep theexposed ends in contact with the periphery of the working chamber. 'L.

The piston 27 is slidable through the middle of the rotor 8. Since the piston, rotor and working chamber are all of the same dimension in the axial direction it becomes apparent that the rotor must be cutin half and shaved oflE enough on the confronting faces to produce the channel 32 (Fig. 3) for the piston and at the same time preserve the necessary roundness of the rotor.

The face plates 1'7 are secured to the approximate halves in the manner already pointed out,

audit is these platesthat hold the halves in spaced relationship. Y

' The form of the working chamber adopted for three equidistantly spaced lobes or pockets 29,

30, 31. It is only a form such as this, or a. form possessing similar pockets in any power of three,

that will enable the maintenance of contact of the extremities of a single one-piece reciprocable piston.- There must never be any space between either end of the piston and the periphery of the working chamber, and only a working chamber purpose.

The operation is readily understood. Consider the device first as a pump. Power is applied to the axle'15 (Fig. 1) and the rotor 8 is turned in the direction of arrow a (Fig. 3). The upper end of the piston 27 creates a partial vacuum in the left side of the pocket 29 (Fig. 3), the effects of which vacuum are communicated to the pipe 21 through the opening 28and intake port 23, thus drawing. fluid into the chamber 6, through the port 23 and opening 28 and continuously filling the chamber 29 at the left side of the piston as the latter proceeds out of the chamber. In other words, each chamber is filled with fluid as the piston advances to the right.

But simultaneously with the drawing in operation, the fluid; previously introduced into the chamber 29 is expelled through the opening 28 at the right and exhaust port 25 into the chamber 7 (Fig. 1) whence it is conducted by means of the outlet pipe 22. This action is repeated in every one of the chambers 29, 30, 31 by each end of the piston 27 in turn.. The bottom end of the piston will begin its expulsion of fluid from pipe 22 has no need for a back check valve.

Now consider the device as a moto Pr ure fluid is introduced into the chamber a by way of the inlet pipe. 21 and reaches the pocket 29 by way of the port 23 and opening 28, filling the left side, of the pocket 29. The left wall of the pocket now becomes the abutment against ber 7 whence it is exhausted by way of the outlet pipe 22. The bottom end of the piston 27 will enter the po ket 31 before the top end departs from the ocket 29 so that an application of power occurs at the bottom of the piston before the cessation of power against the top end.

This overlapping in the application of power 98 results, in a continuous and steady revolution of the rotor. There are no dead centers.

It is important to observe that there is no possibility whatever of the rotor 8 or piston 27 havingto act against back pressure. This is ex- 100 I plained thus:'Fol1ow the top end of the piston 2'7 out of the pocket 29. Pressure fluid, fresh from the chamber 6, expends its, energy against the top end of the piston 2'7 as long as any of it is exposed in the pocket, and pressure fluid will continue to flow into the pocket 29 as long as the opening 28 of the port 23 remains uncovered by the right peripheral wall of the pock- This means that the pocket 29 will end up filled with fluid under pressure. But as soon as the rotor 8-revolves-far enough'to bring the opening 28 of the exhaust port 26 into communication with the pocket 29, there will be an instant release of the entrapped pressure fluid into the chamber 7 so that by the time thepresnt bottom end of the piston 27 enters the pocket 29 there will be hardly more than an atmosphere or so of fluid pressure which is quicklyand com pletely discharged by the advancing piston. is equally important to note that the discharge of .the residual fluid ahead of the advancing pis-' ton continues for practically the entire length of the pocket 29. This is due to the proximity of the exhaust port 25. 4125 While the construction and arrangement of the improved fluid pump and motor is that of a generally preferred form, obviously niodiflcae tions and changes may be made without departing from the spirit of the invention or the scope 1130 of the claims.

I claim:--

1. A machine comprising a stator having fluid inlet and outlet chambers and a pocketed working chamber having regularly spaced intermedi- .135

ate rotor contact points, a single piece plate piston fitting the working chamber at every diametrical position, and a rotor concentric to the, working chamber, slidably carrying the piston and having side ports in constant communication 4 with the respective fluid chambers with connected peripheral openings periodically communicable with the successive pockets and periodically out off by riding across said contact points.

2. A machine comprising a rotor, a portless stator block having a working chamber respecting which the rotor is concentrically mounted, said working chamber consisting of a symmetrical arrangement of pockets connected by rela- .tively long, sweeping and slightly outwardly curvilinear surfaces providing contact points mthe rotor at places medially of the pockets, 9. single,

munlcating with oppositely directed ports in the rotor which ports open on opposite races of the rotor, and end plates attached to opposite sides oi! the stator-providingside closures for the pockets and having annular, uninterrupted inlet and outlet fluid chambers in with said ports.

. OLA! O. STAGEBERG.

constant communication

Images