US932007A - Feed-water regulator. - Google Patents

Feed-water regulator. Download PDF

Info

Publication number
US932007A
US932007A US46595808A US1908465058A US932007A US 932007 A US932007 A US 932007A US 46595808 A US46595808 A US 46595808A US 1908465058 A US1908465058 A US 1908465058A US 932007 A US932007 A US 932007A
Authority
US
United States
Prior art keywords
tube
valve
water
pipe
boiler
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US46595808A
Inventor
Harry Evans
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US46595808A priority Critical patent/US932007A/en
Application granted granted Critical
Publication of US932007A publication Critical patent/US932007A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22DPREHEATING, OR ACCUMULATING PREHEATED, FEED-WATER FOR STEAM GENERATION; FEED-WATER SUPPLY FOR STEAM GENERATION; CONTROLLING WATER LEVEL FOR STEAM GENERATION; AUXILIARY DEVICES FOR PROMOTING WATER CIRCULATION WITHIN STEAM BOILERS
    • F22D5/00Controlling water feed or water level; Automatic water feeding or water-level regulators
    • F22D5/14Controlling water feed or water level; Automatic water feeding or water-level regulators responsive to thermal expansion and contraction, e.g. of solid elements

Definitions

  • This invention relates to water feed regulators for steam boilers.
  • the object of the invention is to provide a ,clair-ned.. s
  • Figure 1 is an end View of a, steam boiler having my invention applied thereto.
  • Fig. 2 is a vert-ical section enlarged of the valve for controlling the feed water pipe and .parts directly connected therewith.
  • Fig. 3 is a detail 4in section asl on the line :c-'of F ig. 2.
  • the tube 4 is a water gage tube of usual and well known construction.
  • the upper end of the water gage tube 4 is connected to the upper portion of the boiler 2 by a pipe 5, and the ower end ofthe tube 4 is connected to the lower portion of the boiler by a pipe l6.
  • the tube 4 will always indicate the level of the water within the boiler'in the usunl manner.
  • valve casing 7 within which 'is arranged a valve 8 adapted to a seat 9, for o ening and closing the passageway throng the feed pipe 3 and regulating the feed of water to the boiler 2.
  • the valve casing 7 is provided with a head 10 through 'which the 'stem 11 of the valve 8 projects from the interior of the casing.
  • head 12 Fixed to the outer or upper end of the valve stem 11 is a head 12 on the lower end of an expansion tube 13, the upper end 'of which is provided with a head 14.
  • the tube 13 is in line with the stem 11 and forms in effect a continuation thereof.
  • arms 15 Projecting laterally from t-he valve casing 7 are arms 15 to which, are secured the lower ends of vertical rods 16 extending parallel to the tube 13, one rod 16 being arranged on one side of the tube and the' other ride 1G being arranged on the other side of the tube.
  • the upper portion of the expansion tube 13 has fixed thereto a cross bar 17, which eX- tends between the rods 1G, the ends of the bar 17 being provided with openings therein through which the rods 16 extend.
  • a bar v20 Extending between the upper ends of the rods 16 and secured thereto above the bar 17 is a bar v20, which is provided with a vertically-arranged adjustable screw 21, which is adapted to engage said head to limit the upward movement of the eX- pansion tube 13.
  • a vertically-arranged adjustable screw 21 By adjusting the screw 21 the extent of the upward movement of the expansion tube 13 vmay be nicely regulated.
  • yLeading from the head 14 onthe upper end of the expansion tube 13 is a pipe 22 which is connected to the water gage tube 4' 'on the horizontal plane at which it is de# sired to maintain the water level within the boiler 2, the pipe 22 establishing communication between the upper end of the expansion tube 13 and the water gage tube 4.
  • the head 12 on the lower end of the expansion tube 13 yis connected by apipe 23 to the pipe 6 leading to the lower end of the water gage tube 4 and also to the lower portion of the boiler 2.
  • A is established between the lower end of the expansion tube 13, the lower ⁇ portion of the boiler 2, and the lower end of the water gage tube 4.
  • the plane on which the pipe 22 is connected to the water gage tube 4 is the plane at which the water level within the boiler is desired to be maintained. Therefore, when the desired water level is within the boiler, the parts are in the normal position shown in the drawings; that is to say, the valve 8 is closed to prevent water being 'supplied to the boiler through the pipe 3, and the lower portion of the water gage tube 4, the expansion tube 13, and the pipes 6, 22, and 23 are filled with water; while the upper portion of the water gage tube 4, and the pipe 5 connected with the upper portion of the boiler 2, are fil-led with steam.
  • the valve 8 now remains open to permit the supply of water to the boiler 2 until the water therein again reaches the desiredA level, at which point it closes communication between the pi e 22 and the water gage 4, thus cutting og the supply of steam from the boiler 2 through the pipe 22 to the expansion tube 13.
  • the steam within the pipe 22 and expansion ⁇ tube 13 now condenses, thus causing the water to iow into and fill said tube and pipe.
  • Thisv causes the expansion tube 13l to cool and contract in a manner to raise the stem 11 and close the valve 8, the springs 18 4compensating for the difference between the degree of contraction of the tube 13 and the movement of the valve 8 to its seat.

Description

H. EVANS.
FEED WATER REGULATOR.
APPLIGATION FILED Nov.so,19o8.
'Patented Aug. 24, 1909.
HVVEIVTORa WITNESS- FS QAM, .W
HARRY EIANS, F BRYN MAWR, PENNSYLVANIA.
FEED-WATER REGULATOR.
Specification of Letters Patent.
Patented Aug.- 24, 1909.
Application led November 30, 1908. Serial No. 465,958.
v 1l o all whom it may concern:
Be it known that I, HARRY EvANs, citizen of the United States, and resident of Bryn Mawr5 Montgomery county, State of Pennsylvania, have invented certain new and useful Improvements in Tater-Feed Regulators for Steam-Boilers, of which the following is a full, clear, and exact description.
This invention relates to water feed regulators for steam boilers.
The object of the invention is to provide a ,clair-ned.. s
In the drawings Figure 1 is an end View of a, steam boiler having my invention applied thereto. Fig. 2 is a vert-ical section enlarged of the valve for controlling the feed water pipe and .parts directly connected therewith. Fig. 3 is a detail 4in section asl on the line :c-'of F ig. 2.
2 designates a steam boiler, and 3 a feed water pipe leading to the upper portion of the boiler.
4 is a water gage tube of usual and well known construction. The upper end of the water gage tube 4 is connected to the upper portion of the boiler 2 by a pipe 5, and the ower end ofthe tube 4 is connected to the lower portion of the boiler by a pipe l6. Thus the tube 4 will always indicate the level of the water within the boiler'in the usunl manner.
T he feed pipe 3 has inclined therein a valve casing 7 within which 'is arranged a valve 8 adapted to a seat 9, for o ening and closing the passageway throng the feed pipe 3 and regulating the feed of water to the boiler 2. The valve casing 7 is provided with a head 10 through 'which the 'stem 11 of the valve 8 projects from the interior of the casing. Fixed to the outer or upper end of the valve stem 11 is a head 12 on the lower end of an expansion tube 13, the upper end 'of which is provided with a head 14. The tube 13 is in line with the stem 11 and forms in effect a continuation thereof.
f Projecting laterally from t-he valve casing 7 are arms 15 to which, are secured the lower ends of vertical rods 16 extending parallel to the tube 13, one rod 16 being arranged on one side of the tube and the' other ride 1G being arranged on the other side of the tube. The upper portion of the expansion tube 13 has fixed thereto a cross bar 17, which eX- tends between the rods 1G, the ends of the bar 17 being provided with openings therein through which the rods 16 extend.
Encircling the rods 16 directly below the bar 17 are springs 18, the lower ends of which bear against nuts 19 on the rods 16,
and the upper ends of which bear againstv the bottoni of the bar 17, thus forcing the bar 17 and therewith the tube 13 and valve stem 11 upwardly in a manner to seat the valve 8. I V
Extending between the upper ends of the rods 16 and secured thereto above the bar 17 is a bar v20, which is provided with a vertically-arranged adjustable screw 21, which is adapted to engage said head to limit the upward movement of the eX- pansion tube 13. By adjusting the screw 21 the extent of the upward movement of the expansion tube 13 vmay be nicely regulated.
yLeading from the head 14 onthe upper end of the expansion tube 13, is a pipe 22 which is connected to the water gage tube 4' 'on the horizontal plane at which it is de# sired to maintain the water level within the boiler 2, the pipe 22 establishing communication between the upper end of the expansion tube 13 and the water gage tube 4. The head 12 on the lower end of the expansion tube 13yis connected by apipe 23 to the pipe 6 leading to the lower end of the water gage tube 4 and also to the lower portion of the boiler 2. A Thus communication is established between the lower end of the expansion tube 13, the lower `portion of the boiler 2, and the lower end of the water gage tube 4.
It is sometimes desirable to open the valve 8 by hand, for various purposes, and in order to do this I provide one rod 16 with a collar 25 adjacent the upperend ofthe errpansion tube 13, and pivot to this-collar .25 one end of an arm 26 whichV extends over the head 14 and has secured to its free end the upper end of a depending cord or rod 27 the lower end of which is provided with a ring 28. The arm 26 extends over the head 14 and into engagement therewith, whereby, when the rod or cord 27 is pulled downwardly by hand, the arm 26 will engage the head 14 and depress the expansion tube 13 and therewith the stem 11, in a manner to unseat the valve 8. 'llhe rod or cord 27 may extend to any convenient position to be operated by hand.
As previously stated, the plane on which the pipe 22 is connected to the water gage tube 4 is the plane at which the water level within the boiler is desired to be maintained. Therefore, when the desired water level is within the boiler, the parts are in the normal position shown in the drawings; that is to say, the valve 8 is closed to prevent water being 'supplied to the boiler through the pipe 3, and the lower portion of the water gage tube 4, the expansion tube 13, and the pipes 6, 22, and 23 are filled with water; while the upper portion of the water gage tube 4, and the pipe 5 connected with the upper portion of the boiler 2, are fil-led with steam.
and' 6 into the boiler 2.
When the water level within the boiler 2 falls below the desired plane; that is to say, below the point of communication between the pipe 22 and` water gage 4; steam will enter the pipe 22 and force the water from the expansion tube 13 through the pipes 23 The heat of the` steam thus filling the expansion tube 13 causes it to expand or elongate. During the expansion 'of the tube 13 its upper end engages the adjustable screw 21 to prevent its upward movement, and therefore causes it to expand downwardly and carry with it the valve stemv 11 in a manner to unseatV the valve 8 and permit the supply of feed water through the pipe 3` to the boiler 2. The valve 8 now remains open to permit the supply of water to the boiler 2 until the water therein again reaches the desiredA level, at which point it closes communication between the pi e 22 and the water gage 4, thus cutting og the supply of steam from the boiler 2 through the pipe 22 to the expansion tube 13. The steam within the pipe 22 and expansion `tube 13 now condenses, thus causing the water to iow into and fill said tube and pipe. Thisv causes the expansion tube 13l to cool and contract in a manner to raise the stem 11 and close the valve 8, the springs 18 4compensating for the difference between the degree of contraction of the tube 13 and the movement of the valve 8 to its seat. I claim Y 1. The combination of a |boiler', a water feed pipe communicatino therewith, a valve casing included in said fPeed pipe, a valve in eoy feed pipe communicating therewith, a valve casing included in said feed pipe, a valve in said casing controlling said pipe, a stem projecting from said valve, an expansion tube connected to said stem, yielding means for forcing said stem and tube outwardly, and means to limit the outward movement of the stem and tube.
3. The combination of a boiler, a water feed pipe communicating therewith, a valve casing included in said feed pipe, a valve in said casing controlling said pipe,'a stem projecting from said valve, an expansion tube connected to said stem, a pair of fixed rods, a cross bar extending between said rods and fixed to said tube, springs acting upon said bar and forcing said stem and tube outwardly, and means to limit the outward movement of said stem and tube.
4t. fl`he combination of a boiler, a water feed pipe communicating therewith, a valve casing included in said feed pi e, a valve in said casing controlling said pipe, a stem projecting from said valve, an expansion 'tube connected to said stem, a pair of fixed rods, a cross bar extending rbetween said rods and fixed to said tube, springs actmg upon said bar'and forcing said stem and tubeoutwardly, a cross bar .fixed -to said rods, and an adjustable screw carried by the last named bar for limiting the` outward movement of said stem and tube. j
5. The combination of a boiler, a water feed pipe communicating therewith, a valve casing included in said feed pipe, a valve in said casing controlling said pipe, a stem projecting from said valve, an expansion tube connected to said stem, yielding means for forcin said stem and tube outwardly, means to limit the'outward movement of the stem and tube, and a hand-operated lever positioned to engage the expanslon tube and force said tube and said stem 'inwardly against the action of said yielding means.
ln testimony whereof, li have hereunto affixed my signature.
HARRY EVANS.
Witnesses:
S. l. HARPER, A. V. GROUPE.
US46595808A 1908-11-30 1908-11-30 Feed-water regulator. Expired - Lifetime US932007A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US46595808A US932007A (en) 1908-11-30 1908-11-30 Feed-water regulator.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US46595808A US932007A (en) 1908-11-30 1908-11-30 Feed-water regulator.

Publications (1)

Publication Number Publication Date
US932007A true US932007A (en) 1909-08-24

Family

ID=3000431

Family Applications (1)

Application Number Title Priority Date Filing Date
US46595808A Expired - Lifetime US932007A (en) 1908-11-30 1908-11-30 Feed-water regulator.

Country Status (1)

Country Link
US (1) US932007A (en)

Similar Documents

Publication Publication Date Title
US932007A (en) Feed-water regulator.
US2355270A (en) Boiler feed water control
US898255A (en) Feed-water regulator.
US790246A (en) Feed-water regulator.
US607406A (en) John s
US863299A (en) Feed-water regulator.
US398740A (en) Thermostat
US897244A (en) Thermostatic boiler-feed regulator.
US520611A (en) Oil-regulator for continuously-fed lamps
US146335A (en) Improvement in automatic water-supply regulators for cisterns, tanks
US598499A (en) Feed-water regulator
US1824971A (en) Feed water regulator
US1184862A (en) Feed-water regulator.
US971357A (en) Boiler-feed-water regulator.
US731191A (en) Feed-water regulator.
US860413A (en) Damper-regulator.
US158002A (en) Improvement in water-gages for steam-boilers
US1253989A (en) Steam-boiler regulator.
US794906A (en) Device for automatically filling steam-boilers.
US687287A (en) Feed-water regulator for marine boilers.
US1150637A (en) Fire-extinguishing means for boilers.
US354078A (en) Boiler-feed regulator
US650647A (en) Low-water alarm.
US281592A (en) Steam-trap
US641832A (en) Automatic boiler-feeding device.