US1334290A

US1334290A - Liquid wave transmission of power

Info

Publication number: US1334290A
Application number: US162674A
Authority: US
Inventors: Constantinesco Gogu
Original assignee: Individual
Current assignee: Individual
Priority date: 1917-04-17
Filing date: 1917-04-17
Publication date: 1920-03-23
Anticipated expiration: 1937-03-23

Description

G. CONSTANTINESCO. LIQUID WAVE TRANSMISSION OF POWER. APPLICATION FILED APR. 17. 1917.

1,334,290. Patented Mar. 23,1920.

mvmmz Go'gvu. CMLWM BY W UNITED STATES PATEN T OFFICE.

GOGU GONSTANTINESCO, OF ALPERTON,

I ENGLAND. ASSIGNOR OF ONE-HALF TO WALTER HADDON, OF LONDON. ENGLAND.

LIQUID WAVE TRANSMISSION OF POWER.

Application filed April 1'7.

lie it known that I, GOGLT CoNs'rANriyi-zsco, a subject oi the liing of Great Britain and Ireland, and resident of lVestoe, Htaulcy avenue. Alperton, Middlesex, England. have invented certain new and useful .llll} )l'()\'0l1l0lli,s in Liquid I Vave Transmission of Power. ot which the following is a specification.

The present invention relates to systems of trimsmitting power by \vave trzmsmission through liquids.

In the l nited States patent applications Serial Nos. 24 .231. 24.230 and 153.762, methods have been described by which power is transmitted from one point to another by a series of periodic variations of pressure and volume traveling along a liquid column or columns.

In such applications the power mitted in a manner which sound liquids.

According to one method described. three columns of liquid are employed between a generator and a receiver. that is to say, the piece of apparatus by which the power is utilized at the point where it is required.

According to one form, which may be called a three-phase system, three pipes are employed between the generator and re ceiver. The generator in this case consists of a reciprocating pump having three, or a multiple of three, cylinders with pistons working in these cylinders so that the three pistons or sets of pistonsare reciprocated with a phase difference between them of 120. Each of the three cylinders or sets of cylinders communicates with a pipe, one of the pipes leading to the receiver which may be of exactly similar form to the generator. The result of is transanalogous to that in waves are transmitted through reciproiquid column there is transmitted a series of periodic variations of pressure and volume which travel along the liquid column with substantially the velocity with which sound would travel along the column. In a case in which there are three liquid columns. and in which the generator and the receiver are exactly similar. it will be seen that the receiver pistons, supposing that there is a single cylinder connected to each liquid column, will be actuated once during each revolution of the' gen- Specification of Letters Patent.

' eriodic variations Patented Mar. 1917. Serial No. 162,674.

orator and that the phase difference between tie motion of the three pistons ot' the re ceiver will be the same as that between the three pistons ot the generator, namely. 120.

It will be readily seen that by the use of a generator having a single piston rccipio cated once during each revolution of a cam or eccentric with a single pipe connected to such a generator containing liquid. a series of variations of pressure and volume can be transmitted along a single liquid column in an exactly similar manner to that in which the three series of waves are transmitted along the three liquid columns in the sys tem above described. which may he termed a three-phase system. A system having ,a single liquid coluinn may he termed a single phase system.

The object of the present invention is to obtain trom such a single phase system a three-phase system or a system having other number of phases so that by tapping off subsidiary columns at different points of the single column leading from the generator, a two. three, or other number of phase systems. can be obtained capable of actuating a receiver suitable for any desired number of phases. that is to say, in. a rcceiver-to take the case in which rotation requiredthere may be any number of cylinders and pistons giving impulses to a crank or eccentric at any desired number of points in a single revolution. For example, to actuate a three-phase receiver it would be necessary to have three liquid columns, the impulses in these liquid columns differing in phase by 120. I

It will be seen from the analogy of the transmission of sound through liquids that in wave transmission of power by the method above described there will occur in the liquid column or columns a series of of pressure and volume which will travel alongthe, column and for each. speed of revolution of the generating crank there will he a definite wave length in the liquid column, that is to say. if the colmnn is sufliciently long. there will at any instant be a number of points along the column where the pressure is a maximum. Half way between these points there will he points at which the pressure is a minimum: and. with a piston reciprocating harmonically, that is. driven by a rotating crank with a connecting rod whose eccentricity can be neglected, the pressure along the pipe between two points at maximum pressure wil follow a harmonic law. The result of this is that at any instant the pressure in the pipe may be represented by the ordinates of a sine curve whose abscissarepresent distances along the pipe. The points where this curve. crosses the zero line. that is, the points where the pressure is zero or equivalent to the mean pressure, will be at a distance apart equal to the, wave length of the waves generated in the pipe. It will be seen, therefore, that in order to obtain three liquid columns in which the variations of pressure and volume differ in phase by 120. it is only necessary to tap off from the main column subsidiary columns at intervals of 120, the wave length in the main column being represented by 360. I

The present invention. therefore, consists-in obtaining any number of phases from an oscillating liquid column by dividing one wavelength of the vibrating column into equal lengths and tapping from the points of division an equal number of columns. The columns thus derived from the main oscillatingcolumn will then differ in phase from each other by the same angle.

The invention conversely consists in obtaining a single phase column from two or more columns differing in phase by connecting such two or more columns leading from the generator to the single column at suitable points of the latter.

Owing toithe comparatively low elasticity of liquids such as water. the wave length of the waves in the liquid column. unless the periodicity is extremely high, will be inconveniently long and in some cases it is desirable to utilize a phase transforn'ier occupying a smaller space than the single wave,- length.

It can be shown mathematically that the effect, of decreased elasticity in series in a liquid column is to shorten the wave length, while the efi'ect of inertia in the liquid column is to lengthen the wave length. By utilizing this phenomenon it is possible to construct a charged liquid column having less elasticity than that due to the liquid alone and to utilize, such a liquid cohunn for the purpose of shortening the length of column-required to give the requisite length for the complete wave length, and this length of charged line may be considerably less than the length requiredhfor a wave length in a column containing liquid alone and carrying impulses produced with the same frequency.

The present invention, therefore, further consists in a phase transformer in which the Wave length of the line is artificially shortened by using rnertias in series, or condensers in parallel, or both.

In carrying the invention into efl'ect according to one example. we may have a main pipe in which a water column is trans mitting oscillations at a frequency of, say, 20 per second. The wave length with water at this number of oscillations per second will be about meters, the velocity of the wave in the liquid being about 1400 meters per second. /The pipe for 35 meters may be made into a coil and two branch pipes may be connected at the ends of this coil. There will thus be produced in the branch pipes oscillations in the liquid columns which will differ in phase by 180. The oscillations in the two branch pipes may thus be used to act on the two sides of a moving piston or diaphragm which would thus be set in motion and would vibrate at the same frequency. Similarly, according to another example, three branch pipes might be connected to the main pipe at distances of 23.33 meteis apart and in these branch pipes oscillations differing in phase by 120 would be produced of the same frequency as the oscillations in the main line. These three branch pipes may be connected to amotor formed with three pistons having their axes 120 apart and acting on a common crank, thus rotating the crank at the frequency of the main water column.

Referring to the accompanying drawigure 1 is a diagram illustrating one method of carrying out the invention in which a three-phase system is derived from oscillations in a single pipe.

Fig. 2 shows a further method of obtaining a threephase system from a single phase system. i

In carrying the invention intofleifect as shown by the diagram in Fig. 1, the generator a consists of a reciprocating piston working in a cylinder which is directly connected to a pipe 7) full] of liquid. The reciprocations of the piston produce periodic variations of volume which travel along the liquid column with substantially the speed of sound. The ordinates of the dotted curve a, d, e, f, g, may be taken to represent the pressure in the liquid column at any particular instant, the distance between 0 and 9- being the wave length. Points l, m, along the pipe are selected such that a Z equals Z on and Z m equals m g, and three pipes are connected, one at Z, one at m, and one at g. The result of this will be that impulses will be produced in the liquid columns in the branch pipes leading from Z, m and g which will differ in phase by 120 so that a three-phase alternating liquid current is obtained from the single phase currentin the main pipe I).

Fig. 2 shows diagrammatically how the distance between the points at which the three-phase current is drawn oif may be "shortened. so that the actual length reqilired l and inertia with whieh the between the points of tapping may be made much less for the same periodicity than is the ease with a single line. Although the length as illustrated between the tapping points is the same. by suitably varying the elasticity by means of eapaeities and inertias. the distanee between the actual points of tapping of the pipe may be very much reduced. and it will be understood that the stale of Fig-x1 and 2 does not represent the difference which may be obtained.

In Fig. :2 the wave length in the line I]! is automatically shortened by inserting inertias o 0 in series in the line and capacities p p in parallel. The wave length in this ease will be very much less than in the ease where liquid alone is used in the pipe, and it on the seale of the. figure the distant-e represents the full wave length the branch lines can be tapped at the points r 1/ and e. the aetual distanee between these points depending on the values of eapaeity line is charged.

It will be seen that the method is quite general. and any number of phases ean be obtained. Further. the proeess may be reversed: a polyphase oscillation traveling in pipes ean be transformed to a single phase oseillation by eonneeting the pipes to a main line. and keeping the eonneeting pipes at a distanee ol' 7. where. it the wave length. 'lhe wave length whieh is to be used in the transformer may be redueed simply to a sneeession ol' inertias in series. and condensers in parallel. the eharged line eone pri ing for example at least nine groups of 'titlt-llsel's' and inertias tor a eoinplete wave length. The phase transl'ornum may thus he eonstrueted in a very eonipaet l'orm.

-eording to another example. a short nave may be readily obtained by using a flexible tube. for example. a rubber tube. in which the eapaeity eoellicient is very smallv tn sueh tube the wave length will he very ---ho1't. net'essarv wave in a short length. it' a fairly high treqneney is employed. is to make the A simple method ol obtaining the.

'wave length of a, metal tube coiled like. a

spring, so as to keep the branch pipes close together.

It will be readily understood that instead of a condenser. a eapaeit-y may be em ployed, that. is to say, a strong vessel (zone pletely filled with liquid. Sueh a eapaeity Will take the place of a eondenser and will operate in an exaetly similar manner. The inertia devices aeeording to the invention eonsist merely of pistons plaeed in the wave transmission pipe. these pistons supporting heavy weights so as to present considerable inertia to the movement of the liquid in the column. These deviees are fully deseribed in the patent, speeifieations above referred to.

\Vhat I claim is:-

1. In a system of liquid wave transmission of power in which at liquid eolumn is liquld column. in the pressure and volume of it. means for obtaining a plurality of eolumns. whose wave lengths ditfer in phase. from a single phase eolmnn. or vice versa; eomprising: a main pipe and a plurality of snl'isidiary pipes eonneeted to the main pipe at equidistant points within the eoinpass ot' a single ave length in the main pipe.

:2. In a system of liquid wave transmission of power in whit-h a liquid column is subjected to variations, that travel along the liquid column, in the pressure and volume. of it. means for obtaining a plurality of columns. whose wave lengths differ in phase. from a single phase. column. or vice versa. eomprising: a main pipe and aplurality of subsidiary pipes connected to the main pipe at equidistant. points within the eompass ot' a single wave length in the main pipe and means for artificially shortening the wave length of the liquid column in the. main pipe.

In testimony whereof I have signed my name to this specification.

GOG-U (ONSTANLINESCO subjected to variations. that travel along the