US23772A - Water-meter - Google Patents
Water-meter Download PDFInfo
- Publication number
- US23772A US23772A US23772DA US23772A US 23772 A US23772 A US 23772A US 23772D A US23772D A US 23772DA US 23772 A US23772 A US 23772A
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- United States
- Prior art keywords
- chambers
- cylinders
- chamber
- valves
- valve box
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- Expired - Lifetime
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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
- G01F3/02—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 measuring chambers which expand or contract during measurement
- G01F3/04—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 measuring chambers which expand or contract during measurement having rigid movable walls
- G01F3/14—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 measuring chambers which expand or contract during measurement having rigid movable walls comprising reciprocating pistons, e.g. reciprocating in a rotating body
- G01F3/16—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 measuring chambers which expand or contract during measurement having rigid movable walls comprising reciprocating pistons, e.g. reciprocating in a rotating body in stationary cylinders
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S261/00—Gas and liquid contact apparatus
- Y10S261/26—Foam
Definitions
- my invention consists in constructing a water meter of two end measuring chambers on each side, united by a pair of stationary cylinders, and having in connect-ion with them, independent interior reciprocating cylinders divided transversely by septa and having their stroke adjustable from the exterior; and surmounted by a valve box having valves under the control of the reciprocating cylinders, and passages forming inlet and out-let communications with and from the measuring chambers; substantially as hereinafter set forth.
- A, A', and B, B' are the measuring chambers cast together in pairs and forming end covers and continuations to the middle piece or intermediate cylinders C, C', to which they are united by flanges a, a, on the measuring chambers and flanges o, Z), on the ends of the intermediate cylinders.
- the right and left measuring chambers A, A', and B, B' have, each pair of chambers, upon their upper sides necked projections c, c', cored out for the passage of the 'bolts E, E', which project inward and serve as adjustable stops to the interior operating cylinder or cylinders, to regulate the capacity of the measuring chambers.
- the intermediate cylinders C, C' have their flanges o, I), made to project slightly internally as well as externally, and a leather gasket or cup leather f, is interposed between said ianges and those a, a, of the ⁇ measuring chambers, said gasket or washer having its internal opening of somewhat less diameter than the interior diameter of the inner portion of the flanges b, Z).
- These intermediate cylinders O, C' have a longitudinal opening made in them along their top, extending from flange to flange b, Z).
- F, F' are two detached cylinders, made of zinc or other suitable material, and having a septum g, in the middle of each, with a boss thereon for the reception and attachment of rods G, G', screwed into the boss of each septum and arranged to project upward at right angles to the cylinders.
- the valve box D contains six chambers 71 7L', 71,2, 71,3, and H, I-I'. These chambers communicate with each other through the intervention of valves I, I', I2, I3. Said valve box is also provided with two parallelogrammatic openings J, J', surrounded by incasing projections'extending from the bottom of the valve box to its top edge or surface. These openings are for the purpose of allowing the passage and play,.
- the four cells or chambers to the valves I, I', I2, I2, are bored through from the outside of each end of the valve box, andbrass or composition tubes 2, 2, then inserted, the extremities of said tubes communicating with the two chambers H, H', of the valve box, and the peripheries of said tubes communicating by apertures j, j, with the other chambers 7L, 7L', 7b2, 7L3, thereof.
- These latter chambers (h, 7L', 7L2, 71.3,) communicate through the cored out necked projections c, c', at each end, with the measuring champ bers A, A' and B, B', over which they respectively are placed.
- valves I, I', I2, I3, are formed of two brass rods having upon each extremity a packing or piston of leather cupped both ways. Such valves are pushed home into their seats formed by the composition tubes 2, 2, by entering them through the openings made in the edges or ends of the valve box which are afterward plugged up.
- the length of the brass rods connecting or forming the valves I, I', I2, I3, should be such that when the middle of either rod connecting the two valves at its opposite ends intersects the medium transverse line of the valve box, then the furrow, formed by the backs of the two cupped leathers upon each end of each rod shall occupy such relation to the apertures j, j, in the sides of the tubes 2, 3, as that all communication is cut off between the four chambers 7L, 71.', 7a2, 7b3, and the other two chambers H, H', of the valve box.
- the plungers on or packed portions of the rods which form these valves, are moved to and fro across the apertures j, y', of the tubes 2, 2, in the following manner.
- a hole is drilled of of an inch in depth, more or less.
- a brass post J is inserted into this hole.
- This post passes through a brass sleeve or cylinder K, and from thence to the top of the valve box.
- a finger L which plays into an opening made in the one valve rod I2, I3, just large enough to admit free motion of the end of the finger.
- the finger L By turning' the post J, from right to left, or vice-versa, the finger L, causes the valves I2, I3, to move from their covering position of the apertures j, j, in their respective bearings or tubes 2, 2, and so establishes communication between the valve box chambers 7b2, 7b3, and H, H', and with the measuring chambers or cylinders B, B',
- valve rod I, I' is similarly operated by a finger M, extending from the sleeve or cylinder K, and playing between the extremities of two arms N, N, connected with said other valve rod.
- the valves I, I' are also made to move from their covering position of the apertures y', j, in their respective tubes and communication thereby established between the other two valve box chambers 7L, 7L', and the before named additional chambers H, H', and the remaining two measuring cylinders A, A'.
- valve post or stem J, and sleeve K pass out through the valve box cover and are squared vfor fitting on or attaching to them, the one to the sleeve K, and the other to the inner valve stem J, two double tailed levers P, Q, which are designed to strike or clip, respectively, the rods Gr, G', of the operating cylinder F, F.
- the valve box is covered by a gasket of leather or rubber 75, and it with its cover fn, held firmly down by screws m, m, m, m, passing through the lid and into holes in the bosses cast in the valve box, and by the screw bolt-s CZ, el, passing through the lid and screwing into the bosses cast on the measuring chambers A, A', and B, B'.
- the general operation may be brieliy described as follows: Supposing the chamber H, to be the water receiving chamber by means of a supply pipe R; and the other chamber H', to be the delivering chamber provided with an escape pipe S; through such disposition of said chambers with their pipes may be reversed; then, to start the meter, so adjust the valves I, I', I2, I2, that one pair of each double valves I, I', or I2, I3, have the discharge and receiving ports open from and to the measuring chambers A, A', or B, B', over which said valves respectively are situated.
- valves I, I' to be so adjusted that water enters through the tube and pass through the apertures y', thereof into the chamber 72,', and from thence into the measout uring chamber A', and there pressing on the septum g, of the operating cylinder F, it urges the latter to the left hand.
- air contained in the measuring chamber A is displaced and forced up into the chamber L, and through the apertures j, of the tube z', into the latter and from it out into the chamber H', and out through the escape pipe S.
- the cylinder F in thus moving, causes its rod G, to press against the one tail of the lever I), and moves it so as to turn the post J, which, by its iinger L, moves the other two valves I2, I3, toward the right hand, thus allowing water to flow from the chamber H, into the chamber 71,2, and from thence into the measuring chamber B, which of course urges the operating cylinder F', toward the right hand.
- valves I2, I3 takes place as the cylinder F, approaches the termination of its stroke to the left hand where it remains stationary till suflicient water has entered the measuring chamber B, to urge the cylinder F', toward the right and, by its rod G', lever Q, sleeve K, finger M and side arms N, N, moved the valves I, I', so as to reverse the communication of the chambers 71A, 71,', with the chambers H, H'.
- Such construction of meter must necessarily insure perfect accuracy and is in no way liable to get out of working order; while the constructing of the whole in what may be termed four parts, namely, the two measuring chambers with their independent operating cylinders, middle piece or stationary cylinders C, C', and valve boX, arranged as described, not only facilitates putting together, but also taking apart for any or every purpose, of one or more of said parts.
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- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- General Physics & Mathematics (AREA)
- Measuring Volume Flow (AREA)
Description
UNITED STATES PATENT OFFICE.
NATHAN B. MARSH, OF CINCINNATI, OHIO.
WATER-METER.
Specification of Letters Patent No. 23,772, dated April 26, 18159.
To all whom 'Lt may concer/r1.:
Be it known that I, NATHAN B. MARSH, of Cincinnati, in the county of Hamilton and State of Ohio, have invented a new and useful Improvement in Tater-Meters; and I do hereby declare that the following is a full, clear, and exact description of the same, reference being had to the accompanying drawings, forming a part of this specification, in which- Figure l, represents a face vview of the meter with its valve box. Fig. 2, a longitudinal section through the measuring chambers and their cylinders. Fig. 3, an interior face view of the valve box detached, and F ig. fl, a transverse section through the valve box and cylinders in part.
Similar letters of reference, in each of the several figures indicate corresponding parts.
The nature of my invention consists in constructing a water meter of two end measuring chambers on each side, united by a pair of stationary cylinders, and having in connect-ion with them, independent interior reciprocating cylinders divided transversely by septa and having their stroke adjustable from the exterior; and surmounted by a valve box having valves under the control of the reciprocating cylinders, and passages forming inlet and out-let communications with and from the measuring chambers; substantially as hereinafter set forth. And the nature of my improvement further consists in a certain construction of parts whereby the end flanges of the stationary cylinders are made to carry the reciprocating cylinders and the one gasket or packing at each side is made to secure the reciprocating cylinders againstv leakage and to pack the junctions of the measuring chambers with the stationary cylinders.
To enable others, skilled in the art, to make and use my invention, I will proceed to describe its construction and operation.
A, A', and B, B', are the measuring chambers cast together in pairs and forming end covers and continuations to the middle piece or intermediate cylinders C, C', to which they are united by flanges a, a, on the measuring chambers and flanges o, Z), on the ends of the intermediate cylinders.
The right and left measuring chambers A, A', and B, B', have, each pair of chambers, upon their upper sides necked projections c, c', cored out for the passage of the 'bolts E, E', which project inward and serve as adjustable stops to the interior operating cylinder or cylinders, to regulate the capacity of the measuring chambers.
The intermediate cylinders C, C', have their flanges o, I), made to project slightly internally as well as externally, and a leather gasket or cup leather f, is interposed between said ianges and those a, a, of the `measuring chambers, said gasket or washer having its internal opening of somewhat less diameter than the interior diameter of the inner portion of the flanges b, Z). These intermediate cylinders O, C', have a longitudinal opening made in them along their top, extending from flange to flange b, Z).
F, F', are two detached cylinders, made of zinc or other suitable material, and having a septum g, in the middle of each, with a boss thereon for the reception and attachment of rods G, G', screwed into the boss of each septum and arranged to project upward at right angles to the cylinders. These detached cylinders F, F', are turned straight and smooth upon their exterior, and so that they pass, without friction, between or through the inner projecting portions of the flanges b, b, of the intermediate cylinders, within or along inside which latter, and the measuring cylinders A, A', and B, B', they play, resting upon the inner projecting portions of the flanges b, I), and kept packed against the escape of water around them from the one measuring chamber to the opposite, by the gaskets or packing f, which packing also serves to prevent leakage at the joints of the cylinders.
The valve box D, contains six chambers 71 7L', 71,2, 71,3, and H, I-I'. These chambers communicate with each other through the intervention of valves I, I', I2, I3. Said valve box is also provided with two parallelogrammatic openings J, J', surrounded by incasing projections'extending from the bottom of the valve box to its top edge or surface. These openings are for the purpose of allowing the passage and play,.
through the valve box, of the 'posts or rods G, Gr', which pass through the top longitudlnal openings in the intermediate cylinders C, C', and which are connected and reciprocate with the interior operating detached cylinders F, F'.
The four cells or chambers to the valves I, I', I2, I2, are bored through from the outside of each end of the valve box, andbrass or composition tubes 2, 2, then inserted, the extremities of said tubes communicating with the two chambers H, H', of the valve box, and the peripheries of said tubes communicating by apertures j, j, with the other chambers 7L, 7L', 7b2, 7L3, thereof. These latter chambers (h, 7L', 7L2, 71.3,) communicate through the cored out necked projections c, c', at each end, with the measuring champ bers A, A' and B, B', over which they respectively are placed.
The valves I, I', I2, I3, are formed of two brass rods having upon each extremity a packing or piston of leather cupped both ways. Such valves are pushed home into their seats formed by the composition tubes 2, 2, by entering them through the openings made in the edges or ends of the valve box which are afterward plugged up. The length of the brass rods connecting or forming the valves I, I', I2, I3, should be such that when the middle of either rod connecting the two valves at its opposite ends intersects the medium transverse line of the valve box, then the furrow, formed by the backs of the two cupped leathers upon each end of each rod shall occupy such relation to the apertures j, j, in the sides of the tubes 2, 3, as that all communication is cut off between the four chambers 7L, 71.', 7a2, 7b3, and the other two chambers H, H', of the valve box. The plungers on or packed portions of the rods which form these valves, are moved to and fro across the apertures j, y', of the tubes 2, 2, in the following manner.
In the center of the one chamber H', of the valve box, a hole is drilled of of an inch in depth, more or less. Into this hole the foot of a brass post J, is inserted. This post passes through a brass sleeve or cylinder K, and from thence to the top of the valve box. On one side of the brass post J, and projecting from it at right angles is a finger L, which plays into an opening made in the one valve rod I2, I3, just large enough to admit free motion of the end of the finger. By turning' the post J, from right to left, or vice-versa, the finger L, causes the valves I2, I3, to move from their covering position of the apertures j, j, in their respective bearings or tubes 2, 2, and so establishes communication between the valve box chambers 7b2, 7b3, and H, H', and with the measuring chambers or cylinders B, B',
that the former two chambers 71,2, 71.3, respectively communicate with. 'The other valve rod I, I', is similarly operated by a finger M, extending from the sleeve or cylinder K, and playing between the extremities of two arms N, N, connected with said other valve rod. By this means, it will be seen, the valves I, I', are also made to move from their covering position of the apertures y', j, in their respective tubes and communication thereby established between the other two valve box chambers 7L, 7L', and the before named additional chambers H, H', and the remaining two measuring cylinders A, A'. But in thus speaking of communication being` established by the uncovering action of the valves, between the valve box chambers 7L., 7L', and 7b2, 72,3, with the other valve box chambers H, H', it should be borne in mind that each double valve I, I', or I2, I2, on opening their respective passages or chambers 7L, 71,', or 712, 7b2, to the two valve box chambers H, H', do so at opposite ends, the one chamber 7L, to the chamber H, and the other chamber 7L', to the other chamber H'; and so with the other two chambers 7b2, 71.3. A reverse movement of the valves of course reverses the communication of the clrhambers H, H', with the chambers 7L, 7L',
The valve post or stem J, and sleeve K, pass out through the valve box cover and are squared vfor fitting on or attaching to them, the one to the sleeve K, and the other to the inner valve stem J, two double tailed levers P, Q, which are designed to strike or clip, respectively, the rods Gr, G', of the operating cylinder F, F.
The valve box is covered by a gasket of leather or rubber 75, and it with its cover fn, held firmly down by screws m, m, m, m, passing through the lid and into holes in the bosses cast in the valve box, and by the screw bolt-s CZ, el, passing through the lid and screwing into the bosses cast on the measuring chambers A, A', and B, B'.
Referring to this minute description of parts and their action, the general operation may be brieliy described as follows: Supposing the chamber H, to be the water receiving chamber by means of a supply pipe R; and the other chamber H', to be the delivering chamber provided with an escape pipe S; through such disposition of said chambers with their pipes may be reversed; then, to start the meter, so adjust the valves I, I', I2, I2, that one pair of each double valves I, I', or I2, I3, have the discharge and receiving ports open from and to the measuring chambers A, A', or B, B', over which said valves respectively are situated. Ihus supposing the valves I, I', to be so adjusted that water enters through the tube and pass through the apertures y', thereof into the chamber 72,', and from thence into the measout uring chamber A', and there pressing on the septum g, of the operating cylinder F, it urges the latter to the left hand. As said cylinder F, thus moves to the left, air contained in the measuring chamber A, is displaced and forced up into the chamber L, and through the apertures j, of the tube z', into the latter and from it out into the chamber H', and out through the escape pipe S. The cylinder F, in thus moving, causes its rod G, to press against the one tail of the lever I), and moves it so as to turn the post J, which, by its iinger L, moves the other two valves I2, I3, toward the right hand, thus allowing water to flow from the chamber H, into the chamber 71,2, and from thence into the measuring chamber B, which of course urges the operating cylinder F', toward the right hand. This latter action of the valves I2, I3, takes place as the cylinder F, approaches the termination of its stroke to the left hand where it remains stationary till suflicient water has entered the measuring chamber B, to urge the cylinder F', toward the right and, by its rod G', lever Q, sleeve K, finger M and side arms N, N, moved the valves I, I', so as to reverse the communication of the chambers 71A, 71,', with the chambers H, H'. This done the water con tained in the measuring chamber A', passes off into the chamber H', and from thence to the escape pipe S; and water from the chamber H, enters the chamber h, to pass into the measuring chamber A, and, in course of a little time, urges the operating cylinder back to the right hand, and in so doing reverses the position of the valves I2, I3, to
move in its turn, the operating cylinder F', to the left hand, and so on successively with each operating cylinder, that, accordingly as their stroke is limited by the adjusting rods E, E', govern the measuring capacity of the chambers A, A', B, B. For a portion of time it will be seen, two valves are simultaneously receiving and other two discharging water.
Such construction of meter must necessarily insure perfect accuracy and is in no way liable to get out of working order; while the constructing of the whole in what may be termed four parts, namely, the two measuring chambers with their independent operating cylinders, middle piece or stationary cylinders C, C', and valve boX, arranged as described, not only facilitates putting together, but also taking apart for any or every purpose, of one or more of said parts.
What I claim as my invention and desire to secure by Letters Patent, is i 1. The combination of the two side or end measuring chambers A, A', B, B'; middle piece or stationary cylinders C, C', independent reciprocating interior cylinders F, F', having septums g, g; adjusting rods E, E'; and valve box with its valves and passages, the former actuated by the reciprocating interior cylinders essentially as set forth, and the latter forming inlet and outlet communications with and from the `measuring chambers; all for operation together substantially .as specied.
2. Supporting the reciprocating interior cylinders F, F', on projections formed by the extension inward of the end flanges b, b, of the stationary cylinders C, C'; and packing said reciprocating cylinders by the gaskets f, f, which make-tight the joints of the stationary cylinders with the measuring chambers; said gaskets being cupped or bent internally as shown and described.
N. B. MARSH.
Witnesses W. CHELLSEY, EDWIN STEVENS.
Publications (1)
Publication Number | Publication Date |
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US23772A true US23772A (en) | 1859-04-26 |
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US23772D Expired - Lifetime US23772A (en) | Water-meter |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4932401A (en) * | 1988-04-01 | 1990-06-12 | Perkins Warren E | Two-gas variable ratio, variable dose, metering system and method of use |
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0
- US US23772D patent/US23772A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4932401A (en) * | 1988-04-01 | 1990-06-12 | Perkins Warren E | Two-gas variable ratio, variable dose, metering system and method of use |
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