US1000344A - Steam-trap. - Google Patents

Steam-trap. Download PDF

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US1000344A
US1000344A US1908447270A US1000344A US 1000344 A US1000344 A US 1000344A US 1908447270 A US1908447270 A US 1908447270A US 1000344 A US1000344 A US 1000344A
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Prior art keywords
tank
steam
valve
water
pipe
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James E Purser
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HERBERT J MOREHEAD
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HERBERT J MOREHEAD
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Priority to US1908447270 priority Critical patent/US1000344A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16TSTEAM TRAPS OR LIKE APPARATUS FOR DRAINING-OFF LIQUIDS FROM ENCLOSURES PREDOMINANTLY CONTAINING GASES OR VAPOURS
    • F16T1/00Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers
    • F16T1/20Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers with valves controlled by floats
    • F16T1/32Steam traps or like apparatus for draining-off liquids from enclosures predominantly containing gases or vapours, e.g. gas lines, steam lines, containers with valves controlled by floats of rocking or tilting type
    • 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
    • Y10T137/2931Diverse fluid containing pressure systems
    • Y10T137/2937Gas pressure discharge of liquids feed traps [e.g., to boiler]
    • Y10T137/2947Gas pressure controlled by amount of liquid in trap
    • Y10T137/2956Gravitating vessel
    • Y10T137/2962Pivoted vessel with fluid passage through pivot

Definitions

  • This invention relates to separators for condensed water and has for its object an improved trap adapted to separate condensed water from the steam of a steam circulating system and return the water to the boiler for reheating.
  • Figure 1 is a perspective.
  • Fig. 2 is a side elevation.
  • Fig. 3 is an end elevation.
  • Fig. 4 is a cross section at the line 4, 4, Fig. 2.
  • Fig. 5, is a plan view of the trunnion bearing, upon which the main tank rocks.
  • the trap consists essentially of a tank 1, into which the water condensed from the steam passes from the circulating system and from which it is periodically delivered into the boiler by gravity through valvecontrolled passages of which the valves are actuated by the weight of the water in the tank and by counter weights.
  • the tank 1, is mounted on the upper end of a vertical pipe 2, which rises from the cross member 3, 5; of this cross member the end 3, is an inlet pipe for water which connects through a by-pass 31, with the pipe 2, and this by-pass is connected through a casing 6, that forms a coupling between the pipes 2, 3, 5.
  • the part 5, of the cross member is a pipe which connects with the casing coupling 6, and by means of a by-pass 51, connects through the casing with pipe 7, that enters the tank 1, near the terminal of its heavy end 11.
  • the pipe 2, extends nearly to the top of the tank.
  • the pipe 7, leads out from the bottom of the tank 1; the pipes 2, 7 both rock with the cross member in bearings 12, 13.
  • the bearing 12 is a chambered bearing into which the cross member 3, projects through a stufling box 14.
  • the stuffing box is inserted through a plate 16, which is itself bolted over an opening in the face of the chambered bearing 12.
  • the return water from the circulating system en- I ters the chambered bearing 12, through a pipe 17 passes the check valve in the valve casing 18, enters the chamber within the bearing and thence passes into the pipe 3, of the cross member and thence into the tank 1, where it is delivered into the tank near the top thereof.
  • the water discharged from the tank passesout through pipe 7, into thetube 5,
  • valve casing 25 In the pipe connection between the flexible section 23, and the vertical section 22, is a valve casing 25, within which is seated a valve with a stem 26, to which is connected a lever 27 One end of the lever 27 engages through a looped end of standard 28, the other end is weighted by weight 29, engages between standard guides 30, and is linked to a cross bar 52, which rests on or is secured to the casing of the valve 25.
  • the depression of the valve casing whichtakes place when the end 11, of the tank rises actuates the lever and this in turn actuates the valve, opens it and furnishes an exhaust passage through the standard pipe 24, through the flexible connection 23, and through the standard 22.
  • the stem 32, of the second valve 34, of a hanger 35 that hangs from the end of the tank or from a projection extending from the end of the tank 1.
  • a projection 39, on the end of the tank engages a guide 40, pivotally connected to the base A, and provided below the projection 39, with a buffer spring 41 and above with buffer spring 42.
  • the standard 40 is pivotally connected to the base A, and may oscillate slightly with respect thereto, to compensate for the radial travel of the projection 39, as that projection oscillates with the tank.
  • the engagement between the projection 39, and the standards 40 is mechanically efiected by passing the standard 40, through a slot-like opening in the projection 39, which permits the oscillation of the two on their independent centers as described.
  • the tank 1, is counter-weighted by a weight W, adjustably connected with the bar 43, that extends over the tank 1.
  • One end of the bar 43 is held to the tank by bracket 44, and intermediate its ends it is held rigidly to rocking standards 45, which rest on steps 46, on the base.
  • the standards 45 support the bar 43, but do not prevent its oscillating motion and themselves partake in the oscillating motion to a degree.
  • the tank 1 rocks on its trunnion bearings, the bar 43, rocks on the ends of the standards 45; the bar 43, and the tank 1, do not maintain an exactly parallel relation throughout this rocking movement, but remain nearly parallel throughout.
  • the Water accumulates in the tank 1, it gradually overbalances the weight W, and the end 11 sinks because of the unbalanced condition that occurs when the tank fills.
  • the amount of water that is necessary to start the sinking or oscillating movement is determined by the location of the weight W, on the rod 43.
  • a steam trap having in combination a tank adapted to tilt when the water accumulates therein, a water inlet passage, a steam inlet passage, a water outlet passage,
  • a steam trap having in combination a tank adapted to tilt when the water accumulates therein, a passage into said tank for both the water of condensation and the steam, a water outlet passage, an exhaust air passage independent of said other passage; a steam valve opened by the tilting of the tank from the normal, and an exhaust air valve closed by such tilting and opened when the tank returns to normal, substantially as described.
  • a steam trap having in combination a tank, trunnions upon which the same is supported and adapted to tilt, a water inlet passage and steam inlet passage through one of said trunnions, and a water outlet passage through the other trunnion, an exhaust air passage independent of the trunnions and the other passages, a steam valve opened by the tilting of the tank from normal and an exhaust air valve closed by such tilting and opened when the tank returnsto normal, substantially as described.
  • a steam trap having in combination a base, a tank mounted thereon and adapted to tilt from the normal when water accumulates therein, a water inlet passage, a steam inlet passage, awater outlet passage, an exhaust air pipe leading from one end of said tank, a valve seat therein, a valve connected to said base and adapted to be' opened when the tank is in normal position by the withdrawal of the valve seat from the valve, a steam valve and means for opening the same when the tank is tilted from the normal, substantially as described.
  • a steam trap having in combination a base, a tank mounted thereon and adapted to tilt from the normal when water accumulates therein, a water inlet passage, a
  • A. steam trap having in combination a tank adapted to tilt when water accumulates therein, a combined steam and water inlet passage discharging near the top of said tank, a water outlet passage discharging from the end of said tank which tilts from the normal, and a steam valve adapted to open when said tank tilts from the normal, substantially as described.
  • a steam pipe having in combination a cylindrical tank, a base, trunnions attached to said base, a cross member adapted to turn in said trunnions,-a pipe forming with said cross member a combination water inlet and steam inlet passage, and discharging near the top of said tank, a second pipe disposed at an angle to said first-mentioned pipe and adapted to form a water discharge passage from the tilting end of said tank, an air exhaust pipe leading from the opposite end of said tank, a valve for the same adapted to close upon the tilting of said tank from the normal and a steam valve adapted to open upon the tilting of said tank from the normal, substantially as described.
  • a steam trap having in combination a base provided with steps on either side, a steam inlet passage, a water inlet passage, and a water discharge passage and a valve controlling said steam inlet passage, the said tank being so positioned that the accumulation of Water therein causes the same to tip, a bar supported above said tank, a counter-weight adjustable on said bar, rocking standards freely supported in said steps on the base and supporting said bar and counte'r-weight, substantially as described.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Lift Valve (AREA)

Description

J. E. PUR'SER.
STEAMTRAP. APPLICATION FILED AUG. 6, 1908.
1,900,344. Patented Aug. 8, 1911.
4 SHEETS-SHEET 1.
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J. E. PURSER.
Patented Aug. 8, 1911.
4 SHEETS-SHEET 2.
HJnnuitur COLUMBIA PLANounAPH C01, WASHINGTON, D. c.
J. E. PURSER.
STEAM TRAP.-
APPLICATION FILED AUG. 6, 1008.
1 ,OOO, 344:, Patented Aug. 8, 1911.
4 sums-SHEET s.
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STEAM TRAP.
APPLIUATION'IILED AUG. 6, 1908. 1,000, 344, Patented Aug. 8, 1911.
4 SHEETS-SHEET 4.
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COLUMBIA PLANoqnAPM c0" WASHINGTON. D. c.
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TEN ornro JAMES E. PURSER, OF WINDSOR, ONTARIO, CANADA, ASSIGNOR T0 HERBERT J. MOREHEAD, OF DETROIT, MICHIGAN.
STEAM-TRAP.
Specification of Letters Patent.
Patented Aug. 8, 1911.
Application filed August 6, 1908. Serial No. 447,270.
To all whom it may concern:
Be it known that I, JAMES E. PURsER, a subject of the King of Great Britain, residing in lVindsor, county of Essex, Province of Ontario, Dominion of Canada, have invented a certain new and useful Improvement in Steam-Traps, and declare the following to be a full, clear, and exact description of the same, such as will enable others skilled in the art to which it pertains to make and use the same, reference being had to the accompanying drawings, which form apart of this specification.
This invention relates to separators for condensed water and has for its object an improved trap adapted to separate condensed water from the steam of a steam circulating system and return the water to the boiler for reheating.
In the drawings: Figure 1, is a perspective. Fig. 2, is a side elevation. Fig. 3, is an end elevation. Fig. 4, is a cross section at the line 4, 4, Fig. 2. Fig. 5, is a plan view of the trunnion bearing, upon which the main tank rocks.
The trap consists essentially of a tank 1, into which the water condensed from the steam passes from the circulating system and from which it is periodically delivered into the boiler by gravity through valvecontrolled passages of which the valves are actuated by the weight of the water in the tank and by counter weights.
The tank 1, is mounted on the upper end of a vertical pipe 2, which rises from the cross member 3, 5; of this cross member the end 3, is an inlet pipe for water which connects through a by-pass 31, with the pipe 2, and this by-pass is connected through a casing 6, that forms a coupling between the pipes 2, 3, 5. The part 5, of the cross member is a pipe which connects with the casing coupling 6, and by means of a by-pass 51, connects through the casing with pipe 7, that enters the tank 1, near the terminal of its heavy end 11. The pipe 2, extends nearly to the top of the tank. The pipe 7, leads out from the bottom of the tank 1; the pipes 2, 7 both rock with the cross member in bearings 12, 13. The bearing 12, is a chambered bearing into which the cross member 3, projects through a stufling box 14. For purposes of easy construction the stuffing box is inserted through a plate 16, which is itself bolted over an opening in the face of the chambered bearing 12. The return water from the circulating system en- I ters the chambered bearing 12, through a pipe 17 passes the check valve in the valve casing 18, enters the chamber within the bearing and thence passes into the pipe 3, of the cross member and thence into the tank 1, where it is delivered into the tank near the top thereof.
The water discharged from the tank passesout through pipe 7, into thetube 5,
of the cross member, thence into a chambered bearing 13, into which the tube 5, is inserted through a stuffing box or packing member 19, which packing member is held to the chambered bearing in the way already described with reference to the connection between the packing 14, and the chambered bearing 12. The discharge water passes .from the chambered head inthe discharge pipe 24, on the base A, which supports the entire structure. In the pipe connection between the flexible section 23, and the vertical section 22, is a valve casing 25, within which is seated a valve with a stem 26, to which is connected a lever 27 One end of the lever 27 engages through a looped end of standard 28, the other end is weighted by weight 29, engages between standard guides 30, and is linked to a cross bar 52, which rests on or is secured to the casing of the valve 25. The depression of the valve casing whichtakes place when the end 11, of the tank rises actuates the lever and this in turn actuates the valve, opens it and furnishes an exhaust passage through the standard pipe 24, through the flexible connection 23, and through the standard 22. The tilting motion of the tank 1, when the end 11 falls, actuates a second valve in the pipe 53. The stem 32, of the second valve 34, of a hanger 35, that hangs from the end of the tank or from a projection extending from the end of the tank 1.
When the heavy end 11, of the tank 1, falls it drops the hanger 35, and the looped end 34, thereof engages the lever 33, and actuates the valve stem 32, which is pivotally connected to the lever 33. The lever 33 engages through standard guides 36, and is connected by link 37, to cross bar 38, secured to the casing of the valve; this valve is a steam controlling valve through which steam enters the tank and brings the water in the tank between steam forces that are balanced as to pressure, and the water then runs into the boiler.
A projection 39, on the end of the tank engages a guide 40, pivotally connected to the base A, and provided below the projection 39, with a buffer spring 41 and above with buffer spring 42. The standard 40, is pivotally connected to the base A, and may oscillate slightly with respect thereto, to compensate for the radial travel of the projection 39, as that projection oscillates with the tank. The engagement between the projection 39, and the standards 40, is mechanically efiected by passing the standard 40, through a slot-like opening in the projection 39, which permits the oscillation of the two on their independent centers as described.
The tank 1, is counter-weighted by a weight W, adjustably connected with the bar 43, that extends over the tank 1. One end of the bar 43, is held to the tank by bracket 44, and intermediate its ends it is held rigidly to rocking standards 45, which rest on steps 46, on the base. The standards 45, support the bar 43, but do not prevent its oscillating motion and themselves partake in the oscillating motion to a degree.
The tank 1, rocks on its trunnion bearings, the bar 43, rocks on the ends of the standards 45; the bar 43, and the tank 1, do not maintain an exactly parallel relation throughout this rocking movement, but remain nearly parallel throughout. As the Water accumulates in the tank 1, it gradually overbalances the weight W, and the end 11 sinks because of the unbalanced condition that occurs when the tank fills. The amount of water that is necessary to start the sinking or oscillating movement is determined by the location of the weight W, on the rod 43. As the heavy end of the tank sinks it opens the valve to the steam inlet pipe allowing the admission of steam to the tank above the water which thus becomes equalized as to pressure and flows by gravity out of the tank.
What I claim is:
1. A steam trap, having in combination a tank adapted to tilt when the water accumulates therein, a water inlet passage, a steam inlet passage, a water outlet passage,
an exhaust air passage independent of the said other passages, a steam valve opened upon the tilting of said tank from normal and an exhaust air valve closed by such tilting and opened when the tank returns to normal, substantially as described.
2. A steam trap, having in combination a tank adapted to tilt when the water accumulates therein, a passage into said tank for both the water of condensation and the steam, a water outlet passage, an exhaust air passage independent of said other passage; a steam valve opened by the tilting of the tank from the normal, and an exhaust air valve closed by such tilting and opened when the tank returns to normal, substantially as described.
3. A steam trap, having in combination a tank, trunnions upon which the same is supported and adapted to tilt, a water inlet passage and steam inlet passage through one of said trunnions, and a water outlet passage through the other trunnion, an exhaust air passage independent of the trunnions and the other passages, a steam valve opened by the tilting of the tank from normal and an exhaust air valve closed by such tilting and opened when the tank returnsto normal, substantially as described.
4. A steam trap, having in combination a base, a tank mounted thereon and adapted to tilt from the normal when water accumulates therein, a water inlet passage, a steam inlet passage, awater outlet passage, an exhaust air pipe leading from one end of said tank, a valve seat therein, a valve connected to said base and adapted to be' opened when the tank is in normal position by the withdrawal of the valve seat from the valve, a steam valve and means for opening the same when the tank is tilted from the normal, substantially as described.
5. A steam trap, having in combination a base, a tank mounted thereon and adapted to tilt from the normal when water accumulates therein, a water inlet passage, a
steam inlet passage, a water outlet passage, an exhaust air pipe leading from one end of said tank and having a flexible pipe connection with said base, a valve seat therein, a valve connected to said base and adapted to be opened when the tank is in normal position by the withdrawal of the valve seat from the valve, a steam valve and means for opening the same when the tank is tilted from the normal, substantially as described.
lot
to said base and having a looped end, a lever pivoted to said yoke and engaging through said looped end of the standard and' attached to said valve whereby the tilting of said tank from the normal causes said air exhaust and valve seat to approach the valve which is held in place by said lever and thereby close said air exhaust valve, a steam valve, and means for opening the same when the tank is tilted from the normal, substantially as described.
7. A. steam trap, having in combination a tank adapted to tilt when water accumulates therein, a combined steam and water inlet passage discharging near the top of said tank, a water outlet passage discharging from the end of said tank which tilts from the normal, and a steam valve adapted to open when said tank tilts from the normal, substantially as described.
8. A steam pipe, having in combination a cylindrical tank, a base, trunnions attached to said base, a cross member adapted to turn in said trunnions,-a pipe forming with said cross member a combination water inlet and steam inlet passage, and discharging near the top of said tank, a second pipe disposed at an angle to said first-mentioned pipe and adapted to form a water discharge passage from the tilting end of said tank, an air exhaust pipe leading from the opposite end of said tank, a valve for the same adapted to close upon the tilting of said tank from the normal and a steam valve adapted to open upon the tilting of said tank from the normal, substantially as described.
9. A steam trap, having in combination a base provided with steps on either side, a steam inlet passage, a water inlet passage, and a water discharge passage and a valve controlling said steam inlet passage, the said tank being so positioned that the accumulation of Water therein causes the same to tip, a bar supported above said tank, a counter-weight adjustable on said bar, rocking standards freely supported in said steps on the base and supporting said bar and counte'r-weight, substantially as described.
In testimony whereof, I sign this specification in the presence of two witnesses.
JAMES E. PURSER.
Witnesses:
CHARLES F. BURTON, VIRGINIA C. SPRATT.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents,
' Washington, D. G.
US1908447270 1908-08-06 1908-08-06 Steam-trap. Expired - Lifetime US1000344A (en)

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