US1497029A - Water-measuring machine - Google Patents
Water-measuring machine Download PDFInfo
- Publication number
- US1497029A US1497029A US619361A US61936123A US1497029A US 1497029 A US1497029 A US 1497029A US 619361 A US619361 A US 619361A US 61936123 A US61936123 A US 61936123A US 1497029 A US1497029 A US 1497029A
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- Prior art keywords
- water
- tank
- discharge
- troughs
- trough
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01F—MEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
- G01F3/00—Measuring the volume flow of fluids or fluent solid material wherein the fluid passes through the meter in successive and more or less isolated quantities, the meter being driven by the flow
- G01F3/36—Measuring the volume flow of fluids or fluent solid material wherein the fluid passes through the meter in successive and more or less isolated quantities, the meter being driven by the flow with stationary measuring chambers having constant volume during measurement
Definitions
- a pre terred form of the invention isv Shown in'the drawings, in which tion, off ny improved measuring mzic' hine;
- Fig. t' is a detail plan' View "of the Valvea nld port in the bottom of o'neo-fthedis 4 chargetroughs, looking in the direction of the ztrrow 4 in Fig; 1;
- Fig. 6 isfa trens'verse sectional elevation
- my improved measuring machmeconipr ses (1 -pa1 "'o frec-' v 'tangula'r measuring tanks 10 and ll prefer ably formed as 2 single casing or 'chtinberi separated by a long tudinal center part1-' in as provided with p'ins40 *(Fig. 1
- a cap or cover platell i maybe supporftedin spaced relation above the overflow pipe to prevent the entranceof foreign substances therein.
- each tank is prOvided with a, plate having a sectional discharge port 15T ⁇ (Fig s. "1 -3)fwhichis noinially covered by a hollow'yalve 16. This "vale is preferitbly 'p royi' ded with it sleeved?
- Valve 28 is cbnnecfid by a ch'ejin'io'r cord 29 to the" b ot'toiniofthetefik'striicttire, the chain bein fsueh length that the port 27 will e. uncoyefed when; the trough swings downwa'rd' as hereinafter desc'ifibed.
- The'jcasing 39 my be mounted in any convenient manner but is shown h'erereceiyed'in sleeyes olf tilh's tl fix ed to the bottom of 'th'tanksl'O and 11.
- The'c'rosspi'pe 39 is provided with a narrow elongetedsiot 42"inits lower side, thijongh" which e broad fiector.
- the approximate amount of water W Y fiat stream of water may be discharged over the deflector 36 and into one of the tanks 10 or 11.
- valve 28 As the right hand or deeper end of the trough 23 is depressed the valve 28 is relatively raised to open the port 27 and at the same time the associated valve 16 is raised to open the port 15 in the bottom of the tank 11. Water will then flow through the discharge port 15 to the trough 23 and will escape therefrom through the open port 27.
- a numbering device 45 (Fig. 5) may be connected by a link 46 to the rocking trough structure, thus recording the number of reversals of the machine. By calibrating the machine to determine the exact amount of water or other liquid discharged by the machine at each reversal, the total quantity of water passing through the machine may be easily determined after inspection of the numbering device 45.
- the deflector 36 is made of suflicient weight so that it will slightly retard the reversal of the discharge troughs and will hold them in one position until a sufficient amount 'ofwater collects in one of the troughs to overcome the unbalanced weight of the de shown inthe trough 23 in Fig. 7 represents the weight necessary to overcome the deflector.
- a water measuring machine having a pair of measuring tanks, a pair of discharge troughs, said troughs being pivotally mounted beneath said tanks and having their bottoms always inclined downward in opposite directions but at different angles in different operative positions of said troughs, means to deliver a relatively small quantity of water to its associated trough when one of said measuring tanks is filled to a predetermined point, and connections actuated by the weight of said overflow water efieotive to open discharge valves in said tank and trough and to deflect the flow of water to the second tank.
- a water measuring machine comprising a pair of measuring tanks, each having an overflow pipe and a discharge valve, a discharge trough pivotally mounted beneath each tank and having an inclined bottom with a discharge valve at its lower end, a water supply, means to direct said water supply to either tank, and connections from said troughs to said valves and to said directing means, reversal of said troughs being occasioned by the accumulation of water from the overflow pipe of one of said tanks at the lower end of its associated trough and such reversal being efiective to deflect the water supply to the second tank to open the discharge valves in the filled tank and its associated trough, and to close the discharge valves in the second tank and trough.
- a water measuring machine comprising a pair of measuring tanks arranged side by side and each having an overflow pipe and a discharge valve at the opposite ends thereof, the overflow pipe in each tank being at the end of the tank adjacent the discharge valve in the other tank, a discharge trough pivotally mounted beneath each tank and having an inclined bottom with a discharge valve at its lower end, said bottoms being always inclined downwardly in a fixed direction but at diiierent'angles in difi'erent positions of said troughs, a water supply, a deflector to direct said water supply to either tank, and connections from said troughs to said valves and to said deflector, whereby reversal of said troughs by the accumulation of overflow water in one of said troughs is effective to open the discharge valves in the filled tank and its associated trough, to close the valves in the other tank and trough, and to deflect the water supply to the emptied tank.
- a water measuring machine comprising a pair of measuring tanks, each having ill) an overflow pipe and a discharge valve, a discharge trough pivotally mounted beneath each tank and having an inclined bottom with a discharge valve at its lower end, a stop to limit rocking movement of said troughs to prevent reversal of the inclination of the bottoms thereof, means to direct a supply of Water to either tank, valves controlling the accumulation of Water in said tanks and troughs alternately in pairs, and means regulated by the rocking movement of said troughs and effective to reverse the Water delivery to an empty tank and to open the valves in a filled tank and its associated trough, to discharge the Water therein.
Description
J. E. RUNNELLS WATER MEASURING MACHINE June 10.
Sheei l Fil WWZZZ rz. v
J. E. RUNNELLS WATER MEASURING MACHINE June 10"} 1924.
Filed Feb.
sis-SheeK 3 Patented June 10, 1924.
, JOHN E. RUNNELLS, F WORCESTER, MASSACHUSETTS.
WATER-MEASURING MIACI-IINE.
Application filed February 16, 1923. Serial' Nb. 619,361.
To all whom itmag concern B dt known thet'I, Join: E. RUNNnLLs;
applied to "the measurement of boiler feed water which mnlst con tinuonsly snpig'lied in relatiyely iergequanmties, and which is often heated to arcomparativelyhigh I perature.
, pets of operation tothe flow, of water, and
It is the oioject of invention to -'pi"ov vide a m achlne for thus measu rmg water or othe liquid which willf operate continuously, which will aiut oinatictlly adjust its I which comprises few and simple pints which are easily assembled mm which are reliable and zefiicient in operation,
improved machine in its p'referi ed; 9501111; is of theduplex type in which the two" parts or sections. of the machine a' Ie so filled and emptied ilteinatelyl inyention fupthei relates to em-engements and combinations 'o fpzirt's which will f be hereinafter described 'and' more pa'rticularly pointed out in the appended claims.
A pre terred form of the invention" isv Shown in'the drawings, in which tion, off ny improved measuring mzic' hine;
Fig; 3fis d e z'tzil l plan View of the dis-J cherge part of one' of the mee-suringftanks;
' Fig. t'is a detail plan' View "of the Valvea nld port in the bottom of o'neo-fthedis 4 chargetroughs, looking in the direction of the ztrrow 4 in Fig; 1;
' Fig?) is an end'eleyation of themaehine;
Fig. 6 isfa trens'verse sectional elevation,
taken along the line 66' in Fig, 2, and 7 is a sectional fside'elevtition 'slmlla-r to Fig; 1 but showing the, parts in 1 ditferent position.
Referring ,to thefdrawings', my improved measuring machmeconipr ses (1 -pa1 "'o frec-' v 'tangula'r measuring tanks 10 and ll prefer ably formed as 2 single casing or 'chtinberi separated by a long tudinal center part1-' in as provided with p'ins40 *(Fig. 1
tign .12 (Fig. 6 Each tank 105121118, prov ded with an overflow pipe 13 fixed in the bottom the reof and shown as incre as- 111g 1n diameter tow aid its upper. end. A cap or cover platell i maybe supporftedin spaced relation above the overflow pipe to prevent the entranceof foreign substances therein. 7 r V its'oppo'site end, each tank is prOvided with a, plate having a sectional discharge port 15T{(Fig s. "1 -3)fwhichis noinially covered by a hollow'yalve 16. This "vale is preferitbly 'p royi' ded with it sleeved? at its center within" which is received a rod or plunger, 18 having e) hearing, in" c the discharge, port plate, Upward movemenmf I the plnn ei: inthefsIeeyis limitedjiby a' cross pin-19am the, upper endof the'valve 1G is de'jsiliably' closed; at cover, plate 20.
The lower end] of the plunger: 18': is engaged bye blocker platefll-fixed; to the inclined bottorn 22,0f one'of the' lischarge troughs 2.3 and 24$ Tlievti'Oughs I23 and 24' ar rigidly ,seciufedftogeffhef inj reversed p'osi'tioh'a'nd' the uni tructure is pivotall'y' s'up' ioited byfifknlie edge 25 resting on bear n 'r members Qfisecnred t0 the 510 and 11.1
At theiowen end of Each] discharge ti ough th e rie jis pl ovidedfje port 27 fnbrina'ily closed by a swin ingf at Valve 28. The Valve 28 is cbnnecfid by a ch'ejin'io'r cord 29 to the" b ot'toiniofthetefik'striicttire, the chain bein fsueh length that the port 27 will e. uncoyefed when; the trough swings downwa'rd' as hereinafter desc'ifibed.
tune are connected by 30 zind -to pposite yidispesed arms-32' and 33 on the beefings 35" pr'e'ferebly supported'on the center partition 12'. 'AjV-shaped defie'ctof'36" is fixed to' the rock shxft34; and adapted to be no'yedfnom' the full line position to the dotted'lineposition in Figs. '5 and 6 TheO poSite' ends of theftrough struc as the" dischar tronehs'23 all c124 'rock Upon the knife edg25.
p y pipe 37is connected to a Cross pipe 38 supportediinvztcasing"39aboye the deflector 36. "The'jcasing 39 my be mounted in any convenient manner but is shown h'erereceiyed'in sleeyes olf tilh's tl fix ed to the bottom of 'th'tanksl'O and 11. The'c'rosspi'pe 39 is provided with a narrow elongetedsiot 42"inits lower side, thijongh" which e broad fiector.
The approximate amount of water W Y fiat stream of water may be discharged over the deflector 36 and into one of the tanks 10 or 11.
Having described the construction of my improved measuring machine the method of operation is as follows Assuming the parts to be in the posi' tion shown in Figs. 1 and 6, the water will continue to flow into the tank 11 until the water level reaches the top of the overflow pipe 13. Water will then flow down through the pipe 13 to the discharge trough 23 and will collect in the lower end of the trough above the gate valve 28. The trough 23 and 24 and all connected parts are carefully balanced so that only a small amount of water is necessary in the end of one. of the troughs to reverse the position thereof, swinging the deflector 86 from the position shown in full lines in Fig. 6 to the dotted lines shown in said figure. The parts. at the moment of reversal are all shown in Fig. 7.
Rocking movement of the troughs is limited by stops 43 (Fig. 5) at both ends of the machine and the permitted movement is not sufficient to overcome the incline of the bottom of the troughs, so that the ports 27 and valves 28 are always at thelower ends of the troughs, whether in filling .or discharge position.
As the right hand or deeper end of the trough 23 is depressed the valve 28 is relatively raised to open the port 27 and at the same time the associated valve 16 is raised to open the port 15 in the bottom of the tank 11. Water will then flow through the discharge port 15 to the trough 23 and will escape therefrom through the open port 27.
In this way the trough 23 and tank 11 Will both be entirely freed of water while the measuring tank 10 is being filled to the level of its discharge pipe. The parts will then be a second time reversed and this action will continue indefinitely, discharging a measured quantity of water at each reversal of the machine.
A numbering device 45 (Fig. 5) may be connected by a link 46 to the rocking trough structure, thus recording the number of reversals of the machine. By calibrating the machine to determine the exact amount of water or other liquid discharged by the machine at each reversal, the total quantity of water passing through the machine may be easily determined after inspection of the numbering device 45.
The deflector 36 is made of suflicient weight so that it will slightly retard the reversal of the discharge troughs and will hold them in one position until a sufficient amount 'ofwater collects in one of the troughs to overcome the unbalanced weight of the de shown inthe trough 23 in Fig. 7 represents the weight necessary to overcome the deflector.
Having thus described my invention and the operation and advantages thereof, I do not wish to be limited to the details herein disclosed otherwise than as set forth in the cl aims but what I claim is:
l. A water measuring machine having a pair of measuring tanks, a pair of discharge troughs, said troughs being pivotally mounted beneath said tanks and having their bottoms always inclined downward in opposite directions but at different angles in different operative positions of said troughs, means to deliver a relatively small quantity of water to its associated trough when one of said measuring tanks is filled to a predetermined point, and connections actuated by the weight of said overflow water efieotive to open discharge valves in said tank and trough and to deflect the flow of water to the second tank.
2. A water measuring machine comprising a pair of measuring tanks, each having an overflow pipe and a discharge valve, a discharge trough pivotally mounted beneath each tank and having an inclined bottom with a discharge valve at its lower end, a water supply, means to direct said water supply to either tank, and connections from said troughs to said valves and to said directing means, reversal of said troughs being occasioned by the accumulation of water from the overflow pipe of one of said tanks at the lower end of its associated trough and such reversal being efiective to deflect the water supply to the second tank to open the discharge valves in the filled tank and its associated trough, and to close the discharge valves in the second tank and trough.
3. A water measuring machine comprising a pair of measuring tanks arranged side by side and each having an overflow pipe and a discharge valve at the opposite ends thereof, the overflow pipe in each tank being at the end of the tank adjacent the discharge valve in the other tank, a discharge trough pivotally mounted beneath each tank and having an inclined bottom with a discharge valve at its lower end, said bottoms being always inclined downwardly in a fixed direction but at diiierent'angles in difi'erent positions of said troughs, a water supply, a deflector to direct said water supply to either tank, and connections from said troughs to said valves and to said deflector, whereby reversal of said troughs by the accumulation of overflow water in one of said troughs is effective to open the discharge valves in the filled tank and its associated trough, to close the valves in the other tank and trough, and to deflect the water supply to the emptied tank.
a. A water measuring machine comprising a pair of measuring tanks, each having ill) an overflow pipe and a discharge valve, a discharge trough pivotally mounted beneath each tank and having an inclined bottom with a discharge valve at its lower end, a stop to limit rocking movement of said troughs to prevent reversal of the inclination of the bottoms thereof, means to direct a supply of Water to either tank, valves controlling the accumulation of Water in said tanks and troughs alternately in pairs, and means regulated by the rocking movement of said troughs and effective to reverse the Water delivery to an empty tank and to open the valves in a filled tank and its associated trough, to discharge the Water therein.
In testimony whereof I have hereunto affixed my signature,
JOHN E. RUNNELLS.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US619361A US1497029A (en) | 1923-02-16 | 1923-02-16 | Water-measuring machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US619361A US1497029A (en) | 1923-02-16 | 1923-02-16 | Water-measuring machine |
Publications (1)
Publication Number | Publication Date |
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US1497029A true US1497029A (en) | 1924-06-10 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US619361A Expired - Lifetime US1497029A (en) | 1923-02-16 | 1923-02-16 | Water-measuring machine |
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US (1) | US1497029A (en) |
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1923
- 1923-02-16 US US619361A patent/US1497029A/en not_active Expired - Lifetime
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