US1222653A - Pressure-regulator. - Google Patents

Pressure-regulator. Download PDF

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Publication number
US1222653A
US1222653A US12843616A US1222653A US 1222653 A US1222653 A US 1222653A US 12843616 A US12843616 A US 12843616A US 1222653 A US1222653 A US 1222653A
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United States
Prior art keywords
housing
float
channel
valve
chamber
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William G Miller
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Individual
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Individual
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D16/00Control of fluid pressure
    • G05D16/04Control of fluid pressure without auxiliary power
    • G05D16/12Control of fluid pressure without auxiliary power the sensing element being a float
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7781With separate connected fluid reactor surface
    • Y10T137/7793With opening bias [e.g., pressure regulator]
    • Y10T137/7802Liquid level responsive gas flow control

Definitions

  • My invention relates to pressure regulators and more particularly to a device of this character for use in a gas line to reduce the pressure of and stabilize the fiow of gas to apparatus requiring a relatively low pressure and constant supply, the present device being an improvement on that disclosed in my copending application filed May 27 1915, and serially numbered 30,7:69, the object of the present invention being to provide improvements in the details of structure disclosed in the first application.
  • Figure I is a perspective view of a pressure regulator containing my improvement.
  • Fig. II. is a transverse section on the line II-II, Fig. IV.
  • Fig. III is a verticalsection on the line IIIIII, Fig. IV.
  • Fig. IV is a central longitudinal section on the line IV-IV, Fig. III.
  • a housing which is preferably formed from a single casting, having an interior partition 2, dividing the housing into separate float and valve chambers 3i respectively, and having an opening 5 at its lower edge through which fluid may flow from one chamber to the other and within" which a float controlled valve beam 6 may operate.
  • the housing 1 is open at the bottom, but when the device is assembled is closed by a plate 8 that may be attached to the body of the housing by bolts 9, the joint between the housing body and its plate being protected against leakage by a suitable packing (not shown).
  • the supply channel 1% opens through the side of the head 13, and communicating with the said channel is a supply pipe 19, the outlet channel also opening through the side of the head and having communication with an outlet pipe 20 that may lead to the apparatus to be supplied from the regulator, the pipes 19 and 20 being rigidly attached to the head 13 by a flange or the like 21 in any suitable manner.
  • the outlet channel 15 is controlled by a valve .23, which is preferably of the needle type as shown, and comprises the stem 24: and hand wheel 25, although I do not. wish to be limited to this particular form of valve.
  • a beam 27 Pivotally mounted between depending ears 26 on the top of the housing 1 is a beam 27, that is turned downwardly in the valve chamber and extends through the opening 5 in the partition 2, so that-its free end is located within the float chamber, where it carries a float rod 28 that is pivotally mounted on the end of the beam and is threaded at its upper free end to adjustably mount a float 29.
  • the float 29 is preferably of the inverted cup type with the rod 28 threaded into a boss 30 at its upper end, which normally projects through an aperture 31 in the top of the housing into a pocket 32 in a cap 33 that is bolted to the top of the housing and covers the aperture 31, the cap havinga tight joint with the housing in order to avoid leakage.
  • a stem 35 Pivotally mounted on the beam 27 within the valve chamber is a stem 35 that projects through the channel 11 in the housing 1 into the channel 14 in the head 13, the stem having a needle point 36 adapted for cooperation with the contracted neck 16 of the channel to close or regulate the channel according to the position of the beam; the beam and float being counter balanced by a weight 37 mounted on the end of the beam within the float chamber.
  • the beam 27, with the valve stem 35, float rod 28 and float 29 in place islocated within the housing and pivotally mounted between the ears 26, with thelower portion of the beam located Within the channel 5 of the housing partition, the stem 35 projected into the housing channel 11 and the neck of the float projected through the channel 31 in the top of the float chamber.
  • the bottom plate 8 is then applied to the lower end of the housing and the housing filled with liquid to the desired depth.
  • the cap 33 and head 13 are then attached to the top of the housing, with the channels and pocket 32 registering with the cooperating openings of the housing, and the intake and supply conduits are properly attached to the head 13 and connected with a suitable source of supply and with a gas using apparatus.
  • Gas under high pressure is then admitted to the intake channel let, and accumulating in the space in the valve chamber above the liquid, is fed through the outlet channel to the using apparatus.
  • the incoming gas is at a higher pressure than is desirable for use in the apparatus it will force the liquid in the valve chamber downwardly through the channel 5 into the float chamber and when suflicient pressure is present in the valve chamber will effect the lifting of the float, so that the beam 6 is lifted to actuate the valve stem 35 to close the inlet 14, it being apparent that as the pressure in the valve chamber increases with the increase in supply, the float is proportionately lifted and the supply shut ofl".
  • a pressure regulator comprising a housing containing separate valve and float chambers having a communicating channel, the valve chamber having intake and outlet channels, a beam pivotally mounted in one of said chambers and extended into the other, a valve connected with the beam and located in the valve chamber, and a float connected with the beam and located in the float chamber.
  • a pressure regulator comprising a housing having a partition dividing its interior into separate valve and float chambers, and having an opening therein at its lower edge and the housing having intake and outlet channels communicating with the valve chamber, a beam pivotally mounted in one of the chambers and extended into the other, a valve on the beam projected intosaid inlet channel, a float rod on the beam within the float chamber, and a float adjustably mounted on said rod.
  • float rod on the beam within the float chamone of said chambers and extending into the other, a valve stem on said beam extending into the inlet channel and having a valve member adapted for cooperation with the seat in said head, a float rod on the beam,
  • a pressure regulator comprising a housing having a partition dividing its in-.
  • the said housing having separate intake and outlet channels in communication With the valve chamber and having a channel in communication With the float chamber, a head having intake and outlet channels in communication With corresponding channels in the housing, the intake channel in the head having a valve seat, a cap for covering the channel leading to the float chamber, a beam pivotally mounted Within one of said chambers and extending to the other below the fluid level Within said chambers, a valve stem on said beam extending through the inlet channel in the housing to the inlet channel in said head, a float adjustably mounted on said float rod and accessible through the opening in the float chamber portion of the housing upon the removal of said cap, and suitable intake and supply conduits in communication With corresponding channels in said head.
  • a pressure regulator comprising a housing having a partition dividing its interior into separate valve and float chambers and having a channel for providing communication between said chambers, the said housing having separate intake and outlet channels, in communication With the valve chamber and having. a channel in communication With the float chamber, a head having intake and outlet channels in COIllmunication with corresponding channels in the housing, the intake channel in the head having a valve seat, a cap for covering the channel leading to the float chamber, a beam pivotally mounted Within one of said chambers and extending to the other below the fluid level in said chambers, a valve stem on said beam extending through the inlet channel in the housing to the inlet channel in said head, a float adjustably mounted on said float rod and accessible through the opening in the float chamber portion of the housing upon the removal of said cap, intake and supply conduits in communication with con responding channels in said head, and a balancing Weight on said beam.
  • fiopiea of this patent may be obtained for five cents each, by addressing the Commissioner of Eatents, Washington, D. C.

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  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Control Of Fluid Pressure (AREA)

Description

W. G. MILLER.
PRESSURE REGULATOR.
APPLICATION FILED ocr. 30, 1916.
Patented A pr. 17, 1917.
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W. G, MILLER.
PRESSURE REGULATOR. APPLICATION FILED 001230, 1910.
@NITED an opinion.
WILLIAM G. MILLER, OF KANSAS CITY, MISSOURI.
PRESSURE-REGULATOR.
Application filed October 30, 1916.
To all whom it may concern:
Be it known that I, WILLIAM G. MILLER, a citizen of the United States, residing at Kansas City, in the county of Jackson and State of Missouri, have invented certain new and useful Improvements in Pressure-Regulators; and I do declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, and to the letters and figures of reference marked thereon, which form a part of this specification.
My invention relates to pressure regulators and more particularly to a device of this character for use in a gas line to reduce the pressure of and stabilize the fiow of gas to apparatus requiring a relatively low pressure and constant supply, the present device being an improvement on that disclosed in my copending application filed May 27 1915, and serially numbered 30,7:69, the object of the present invention being to provide improvements in the details of structure disclosed in the first application.
In accomplishing these objects I have provided the structure disclosed in the accompanying drawings, wherein Figure I is a perspective view of a pressure regulator containing my improvement.
Fig. II. is a transverse section on the line II-II, Fig. IV.
Fig. III is a verticalsection on the line IIIIII, Fig. IV.
Fig. IV is a central longitudinal section on the line IV-IV, Fig. III.
Referring more in detail to the drawings:
1 designates a housing, which is preferably formed from a single casting, having an interior partition 2, dividing the housing into separate float and valve chambers 3i respectively, and having an opening 5 at its lower edge through which fluid may flow from one chamber to the other and within" which a float controlled valve beam 6 may operate.
The housing 1 is open at the bottom, but when the device is assembled is closed by a plate 8 that may be attached to the body of the housing by bolts 9, the joint between the housing body and its plate being protected against leakage by a suitable packing (not shown).
Specification of Letters Patent.
Patented Apr. 11?, 191%.
Serial No. 128,436.
Extending through the top of the housing into the valve chamber 4, are supply and outlet conduits 11-12, and attached to the housing is a head 13, having a supply channel 1% leading to the housing channel 11, and an outlet channel 15 leading to the outlet channcl 12 in the housing body; said supply channel 1 1- having a contracted neck 16 forming a valve seat 17 therein.-
The supply channel 1% opens through the side of the head 13, and communicating with the said channel is a supply pipe 19, the outlet channel also opening through the side of the head and having communication with an outlet pipe 20 that may lead to the apparatus to be supplied from the regulator, the pipes 19 and 20 being rigidly attached to the head 13 by a flange or the like 21 in any suitable manner.
The outlet channel 15 is controlled by a valve .23, which is preferably of the needle type as shown, and comprises the stem 24: and hand wheel 25, although I do not. wish to be limited to this particular form of valve.
Pivotally mounted between depending ears 26 on the top of the housing 1 is a beam 27, that is turned downwardly in the valve chamber and extends through the opening 5 in the partition 2, so that-its free end is located within the float chamber, where it carries a float rod 28 that is pivotally mounted on the end of the beam and is threaded at its upper free end to adjustably mount a float 29. The float 29 is preferably of the inverted cup type with the rod 28 threaded into a boss 30 at its upper end, which normally projects through an aperture 31 in the top of the housing into a pocket 32 in a cap 33 that is bolted to the top of the housing and covers the aperture 31, the cap havinga tight joint with the housing in order to avoid leakage.
Pivotally mounted on the beam 27 within the valve chamber is a stem 35 that projects through the channel 11 in the housing 1 into the channel 14 in the head 13, the stem having a needle point 36 adapted for cooperation with the contracted neck 16 of the channel to close or regulate the channel according to the position of the beam; the beam and float being counter balanced by a weight 37 mounted on the end of the beam within the float chamber.
In order that the contents of the separate chambers may be Observed from the exterior of the housing I provide the housing with the recess 38 in its side which communicates with the interior of the housing through openings 39 and cover the recess with glass or the like, so that the operation and contents of the housing may be observed.
In assembling the device, the beam 27, with the valve stem 35, float rod 28 and float 29 in place, islocated within the housing and pivotally mounted between the ears 26, with thelower portion of the beam located Within the channel 5 of the housing partition, the stem 35 projected into the housing channel 11 and the neck of the float projected through the channel 31 in the top of the float chamber. The bottom plate 8 is then applied to the lower end of the housing and the housing filled with liquid to the desired depth.
The cap 33 and head 13 are then attached to the top of the housing, with the channels and pocket 32 registering with the cooperating openings of the housing, and the intake and supply conduits are properly attached to the head 13 and connected with a suitable source of supply and with a gas using apparatus.
Gas under high pressure is then admitted to the intake channel let, and accumulating in the space in the valve chamber above the liquid, is fed through the outlet channel to the using apparatus. As the incoming gas is at a higher pressure than is desirable for use in the apparatus it will force the liquid in the valve chamber downwardly through the channel 5 into the float chamber and when suflicient pressure is present in the valve chamber will effect the lifting of the float, so that the beam 6 is lifted to actuate the valve stem 35 to close the inlet 14, it being apparent that as the pressure in the valve chamber increases with the increase in supply, the float is proportionately lifted and the supply shut ofl". By proper regulation of the float 29 on its supporting stem, an equilibrium may be established that controls the flow to the housing, so that a constant supply under a determined pressure may be provided to the using apparatus, any increase in the pressure of supply effecting the displacement of liquid in the valve chamber to lift the float and shut off the supply until the equilibrium is reestablished. 7
It is apparent that the needle valve or its equivalent will admit a limited flow through the valve seat and that the flow is determined directly by the position of the valve seal between the separate chambers that prevents escape of the gas from one chamber to the other. 7
Having thus described my invention what I claim as new therein and desire to secure by Letters-Patent, is
1. A pressure regulator comprising a housing containing separate valve and float chambers having a communicating channel, the valve chamber having intake and outlet channels, a beam pivotally mounted in one of said chambers and extended into the other, a valve connected with the beam and located in the valve chamber, and a float connected with the beam and located in the float chamber.
2. A pressure regulator comprising a housing having a partition dividing its interior into separate valve and float chambers, and having an opening therein at its lower edge and the housing having intake and outlet channels communicating with the valve chamber, a beam pivotally mounted in one of the chambers and extended into the other, a valve on the beam projected intosaid inlet channel, a float rod on the beam within the float chamber, and a float adjustably mounted on said rod.
3. In a pressure regulator, a housing having a partition dividing its interior into separate valve and float chambers and having a channel for effecting communication between the chambers, the said housing having separate intake and outlet channels, a beam pivotally mounted in the upper portion of the valve chamber and extended downwardly to the bottom thereof and having an extension projected through the partitionl channel into the float chamber, a valve on the beam within the valve chamber, a
float rod on the beam within the float chamone of said chambers and extending into the other, a valve stem on said beam extending into the inlet channel and having a valve member adapted for cooperation with the seat in said head, a float rod on the beam,
a float on said rod, and'a'cap on said housing removable to provide access to the float, for the purpose set forth. r
5. A pressure regulator comprising a housing having a partition dividing its in-.
terior into separate valve and float chambers and having a channel for establishing communication between the said chambers, the said housing having separate intake and outlet channels in communication With the valve chamber and having a channel in communication With the float chamber, a head having intake and outlet channels in communication With corresponding channels in the housing, the intake channel in the head having a valve seat, a cap for covering the channel leading to the float chamber, a beam pivotally mounted Within one of said chambers and extending to the other below the fluid level Within said chambers, a valve stem on said beam extending through the inlet channel in the housing to the inlet channel in said head, a float adjustably mounted on said float rod and accessible through the opening in the float chamber portion of the housing upon the removal of said cap, and suitable intake and supply conduits in communication With corresponding channels in said head.
6. A pressure regulator comprising a housing having a partition dividing its interior into separate valve and float chambers and having a channel for providing communication between said chambers, the said housing having separate intake and outlet channels, in communication With the valve chamber and having. a channel in communication With the float chamber, a head having intake and outlet channels in COIllmunication with corresponding channels in the housing, the intake channel in the head having a valve seat, a cap for covering the channel leading to the float chamber, a beam pivotally mounted Within one of said chambers and extending to the other below the fluid level in said chambers, a valve stem on said beam extending through the inlet channel in the housing to the inlet channel in said head, a float adjustably mounted on said float rod and accessible through the opening in the float chamber portion of the housing upon the removal of said cap, intake and supply conduits in communication with con responding channels in said head, and a balancing Weight on said beam.
In testimony whereof I affix my signature.
WILLIAM G. MILLER.
fiopiea of this patent may be obtained for five cents each, by addressing the Commissioner of Eatents, Washington, D. C.
US12843616 1916-10-30 1916-10-30 Pressure-regulator. Expired - Lifetime US1222653A (en)

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