US903931A - Device for purifying water in steam-boilers. - Google Patents

Device for purifying water in steam-boilers. Download PDF

Info

Publication number
US903931A
US903931A US43245808A US1908432458A US903931A US 903931 A US903931 A US 903931A US 43245808 A US43245808 A US 43245808A US 1908432458 A US1908432458 A US 1908432458A US 903931 A US903931 A US 903931A
Authority
US
United States
Prior art keywords
boilers
water
filter
boiler
steam
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
US43245808A
Inventor
William P Wiemann
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 US43245808A priority Critical patent/US903931A/en
Application granted granted Critical
Publication of US903931A publication Critical patent/US903931A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B1/00Methods of steam generation characterised by form of heating method
    • F22B1/28Methods of steam generation characterised by form of heating method in boilers heated electrically
    • F22B1/284Methods of steam generation characterised by form of heating method in boilers heated electrically with water in reservoirs
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H1/00Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
    • F24H1/18Water-storage heaters
    • F24H1/20Water-storage heaters with immersed heating elements, e.g. electric elements or furnace tubes
    • F24H1/205Water-storage heaters with immersed heating elements, e.g. electric elements or furnace tubes with furnace tubes
    • F24H1/206Water-storage heaters with immersed heating elements, e.g. electric elements or furnace tubes with furnace tubes with submerged combustion chamber

Definitions

  • My invention relates to a device for purifying water in steam boilers, and has general reference to such device as in U. S. Letters Patent granted to me on July 24, 1906, No. 826,811, for water purifying device for steam boilers.
  • the object of this invention is to provide a cheap, simple and efficient device for purifying the water in a number of steam boilers slmu taneously by circulating the water from all the boilers through a single filter, and at the same time not interfere with the Water level in any boiler connected thereto.
  • FIG. 1 is an elevation of my improved device for purifying water and showing the same applied to a holler and with some of the parts in section.
  • Fig. 2 is a side elevation of the device'and showing the same applied to a number of different types of boilers of different heights and water levels.
  • 1 represents a steam boiler, and as shown in Fig. 2 a number of such boilers can be placed in different positions and at different heights.
  • a pump 2 is connected to each of the boilers 1 and is operated through a steam head 3 of the pump, which is connected by a valve controlled pipe 4 to the steam space of its boiler for the operation of the pump by its usual reciprocating motion to the piston rod 5 carand said rod is provided with the tail-rod 7 for giving the-same amount of displacement in its end of the cylinder as the rod 5 does in the other end, thereby permitting the same amountof water in one end of said cylinder as in'the other end.
  • check valves 8 and 9 On one side of and at each end of the pump cylinder 2 are the check valves 8 and 9, which connect with ports 8 and 9 in the said cylinder and with the valve controlled pipes 10 and 11 connected respectively to the upper and lower parts of the boiler or within the water s ace of the same, and on the opposite side 0 the said cylinder and at each end thereof are the check valves 12 and 13, which connect with ports 12' and 13 in said cylinder and i with Valve controlled pipes 14 and 15 connected respectively to the circulating filter lines 16 and 17.
  • These valves are of the ordinary check type and the valves 9 and 12 are provided with springs 18 bearing against the outer face of the same to hold the same normally closed, and against a pressure greater than that caused by the difference in the Water levels of the several boilers.
  • the pipes 16 and 17 connect respectively with the upper and lower ends of a filter 1!), which is of the ordinary sand type, having the flow downward, and said pipes have a by-pass 20 controlled by a valve 20 connected to and between the same.
  • a valve'Ql is connected to the pipe 16 adjacent to the filter 19 and leading off from said pipe and adjacent to said filteris the blow-off pipe 22, which has a valve 23 thereon and a sight 24 connected thereto for noting the condition of water passing through said blow-01f pipe.
  • valve 12 through the valve 12, and pipes 14 and 16. This will thus cause one end of the pump to circulate impure water from the boiler to the filter 19 and the other end of the pump to circulate an equal amount of purified water from said filter to the boiler, while a single stroke of the pump exchanges an equal amount ofwater either with the boiler or with said filter.
  • the springs 18 arranged in connection with valves 9 and 12 will prevent the flow of water from or to another boiler having a higher or lower water level, and these valves act as outlet or discharge valves from the pumps.
  • the by-pass 20 When it is desired to clean the filter 19, the by-pass 20 is opened by its valve 20, valve 21 is closed, and valve 23 is opened to permit the water to flow from the boilers through the pipe iO an'dvalve 8 into the pumps 2, and thence from said pumps through the valve 12, pipes 14 and l6 and by-pass 20 to the bottom of the filter 19 and be discharged at the blow-ofi pipe 22 at the top of said filter, which is a reverse flow, and when the water has become clear, which may be seen through the sight 24 in said pipe 22, the valve 20 in the by-pass 20 and valve 23 is closed, Valve 21 opened, and then the circulation can continue, as hereinbefore, described.
  • each boiler is operated inde endently of all the rest and a single filter wi l operate the entire system, while any number or type of boilers may be added to the system, and at different distances apart from the filter.
  • the pumps employed are of low duty type, no injury can -occur to them or system if main circulation through the filter be entirely stopped, and a shut down of filter or pump would not unbalance the water level in the boiler. Any, pump or boiler in the system may be shut down without interfering with the others in the same, and the filter capacity may be added to without changes in the balance of the system.
  • Different sized pumps suited to different sized boilers in the same system may be used and boilers at varied distances may be added to the system if desired.
  • the water in all the boilers will be purified continuously'and an even condition in all the boilers-in regard to the accumulation of scaling matter is maintained in the use of the system.
  • the pump works on both circulating lines, which insures same flow in both directions, and such pump being of a reciprocating type will enable the same to be run at a low speed, whereas in other pumps, such as a rotary, and connected to one line only, the speed is necessarily high.
  • This arrangement also permits the use of more than one boiler on'a single filter, and as filters are hard to keep clean, it will be obvious that a single filter is easier to keep clean than a number of them.

Description

W. P. WIEMANN.
. DEVICE FOR PURIFYING WATER IN STEAM BOILERS.
APPLICATION FILED MAY 12,1908.
Patented Nov. 17, 1908.
Wafer Level INVENTOR I WJTNESSES IQMM,
' like UNITED STATES PATENT OFFICE.
- DEVICE FOR PURIFYHQ'G WATER IN STEAM-BOILERS.
Specification of Letters Patent.
Patented Nov. 17, 1908.
Application filed May 12, 1908. Serial No. 432,458.
To all whom it may concern:
Be it known that I, WILLIAM P. WIEMANN, a resident of Pittsburg, (North Side,) in the county of Allegheny and State of Pennsyl- Vania, have invented a new and useful Improvement in Devices for PurifyingWater in Steam-Boilers; and I do hereby declare the following to be a full, clear, and exact description thereof.
My invention relates to a device for purifying water in steam boilers, and has general reference to such device as in U. S. Letters Patent granted to me on July 24, 1906, No. 826,811, for water purifying device for steam boilers. I
The object of this invention is to provide a cheap, simple and efficient device for purifying the water in a number of steam boilers slmu taneously by circulating the water from all the boilers through a single filter, and at the same time not interfere with the Water level in any boiler connected thereto.
To these ends my invention consists, generally stated, in the novel arrangement, construction and combination of parts, as hereinafter more specifically set forth and described and particularly pointed out inthe claims.
To enable others skilled in the art to'which my invention a pertains to construct and use my improve device for purifying water in steam boilers, I will describe the same more fully, referring to the accompanying drawing, in which Figure 1 is an elevation of my improved device for purifying water and showing the same applied to a holler and with some of the parts in section. Fig. 2 is a side elevation of the device'and showing the same applied to a number of different types of boilers of different heights and water levels.
Like symbols of reference herein indicate parts in each of the figures of the drawmg.
As illustrated in the drawing, 1 represents a steam boiler, and as shown in Fig. 2 a number of such boilers can be placed in different positions and at different heights. A pump 2 is connected to each of the boilers 1 and is operated through a steam head 3 of the pump, which is connected by a valve controlled pipe 4 to the steam space of its boiler for the operation of the pump by its usual reciprocating motion to the piston rod 5 carand said rod is provided with the tail-rod 7 for giving the-same amount of displacement in its end of the cylinder as the rod 5 does in the other end, thereby permitting the same amountof water in one end of said cylinder as in'the other end. On one side of and at each end of the pump cylinder 2 are the check valves 8 and 9, which connect with ports 8 and 9 in the said cylinder and with the valve controlled pipes 10 and 11 connected respectively to the upper and lower parts of the boiler or within the water s ace of the same, and on the opposite side 0 the said cylinder and at each end thereof are the check valves 12 and 13, which connect with ports 12' and 13 in said cylinder and i with Valve controlled pipes 14 and 15 connected respectively to the circulating filter lines 16 and 17. These valves are of the ordinary check type and the valves 9 and 12 are provided with springs 18 bearing against the outer face of the same to hold the same normally closed, and against a pressure greater than that caused by the difference in the Water levels of the several boilers.
The pipes 16 and 17 connect respectively with the upper and lower ends of a filter 1!), which is of the ordinary sand type, having the flow downward, and said pipes have a by-pass 20 controlled by a valve 20 connected to and between the same. A valve'Ql is connected to the pipe 16 adjacent to the filter 19 and leading off from said pipe and adjacent to said filteris the blow-off pipe 22, which has a valve 23 thereon and a sight 24 connected thereto for noting the condition of water passing through said blow-01f pipe.
The operation of my improved device for purifying water in steam boilers is as follows :When the pumps 2 are in action from the boilers 1 the downward movement of the piston 6 in said pumps draws the water from its boiler through the pipe 10 and valve 8 into the upper end of the cylinder 2 of said pumps, and returns the same amount from the lower end of the cylinder to said boiler through the valve 9 and pipe 11. The upstroke of the piston 6 in the pump 2 for its particular boiler 1 draws water from the filter 19 through the pipe 17, pipe 15, and valve 13 into the lower end of the cylinder 2' of said pumps, and returns the same amount from the upper end of said cylinder to said rying the piston 6 in the pump cylinder 2',
filter through the valve 12, and pipes 14 and 16. This will thus cause one end of the pump to circulate impure water from the boiler to the filter 19 and the other end of the pump to circulate an equal amount of purified water from said filter to the boiler, while a single stroke of the pump exchanges an equal amount ofwater either with the boiler or with said filter. The springs 18 arranged in connection with valves 9 and 12 will prevent the flow of water from or to another boiler having a higher or lower water level, and these valves act as outlet or discharge valves from the pumps.
When it is desired to clean the filter 19, the by-pass 20 is opened by its valve 20, valve 21 is closed, and valve 23 is opened to permit the water to flow from the boilers through the pipe iO an'dvalve 8 into the pumps 2, and thence from said pumps through the valve 12, pipes 14 and l6 and by-pass 20 to the bottom of the filter 19 and be discharged at the blow-ofi pipe 22 at the top of said filter, which is a reverse flow, and when the water has become clear, which may be seen through the sight 24 in said pipe 22, the valve 20 in the by-pass 20 and valve 23 is closed, Valve 21 opened, and then the circulation can continue, as hereinbefore, described.
It will be evident that all of the pumps 2 will circulate the water independently from and to their own boiler 1, and collectively to and from the filter 19, although it must be understood that the same water that leaves a boiler will not always return to that particular boiler, as it may find its way through several boilers before 1t evaporates, which is a distinct advantage in a large plant, as it will prevent accumulation of Water in any one boiler, and will force an even Water condition of circulation throughout the system.
It will be obvious that my improved device can be used on a boiler set somewhat high or low, on different sizes and types of boilers connected in the system and necessarily carryin a difierent relative water level, and on any oiler in the system that is fired harder than the others, in which case it would cause unbalancing when two boilers are connected with a drum or ipe. N 0 part of the system can rob any otl fer part of the same, as all the pumps contribute to the filter and each pump contributes to its own boiler only.
It will thus be seen that with my improved device each boiler is operated inde endently of all the rest and a single filter wi l operate the entire system, while any number or type of boilers may be added to the system, and at different distances apart from the filter. As the pumps employed are of low duty type, no injury can -occur to them or system if main circulation through the filter be entirely stopped, and a shut down of filter or pump would not unbalance the water level in the boiler. Any, pump or boiler in the system may be shut down without interfering with the others in the same, and the filter capacity may be added to without changes in the balance of the system. Different sized pumps suited to different sized boilers in the same system may be used and boilers at varied distances may be added to the system if desired. The water in all the boilers will be purified continuously'and an even condition in all the boilers-in regard to the accumulation of scaling matter is maintained in the use of the system. The pump works on both circulating lines, which insures same flow in both directions, and such pump being of a reciprocating type will enable the same to be run at a low speed, whereas in other pumps, such as a rotary, and connected to one line only, the speed is necessarily high. This arrangement also permits the use of more than one boiler on'a single filter, and as filters are hard to keep clean, it will be obvious that a single filter is easier to keep clean than a number of them.
What I claim as my invention and desire to secure by Letters Patent, is
1. In an apparatus for purifying water in steam boilers, the combination of a series of boilers, a filter having two main circulating lines, and a circulating pump connected to two independent lines connected to each boiler and to said main lines. 7
2. In an apparatus for purifying water in steam boilers, the combination of a series of boilers and a filter, and means between said boilers and filter for circulating a fixed quantity of water from and to each individual boiler simultaneously through the filter to purify the same.
3. In an apparatus for purifying water in steam boilers, the combination of a series of boilers, a filter having main circulating lines connected thereto, and means connected between each boiler and said lines for pumping an equal amount of impure and pure water from and to each boiler.
4. In an apparatusfor purifying Water in steam boilers, the combination of a series of boilers, a filter having boiler circulating pipes, and an independent circulating pump connected to said pipes and having spring operated discharge valves to prevent the flow of water from one boiler to another and permit the flow of the water throughthe pump by the movement of the pump piston.
5. In an apparatus for purlfying water in steam boilers, the combination of a series of boilers, a filter having circulating lines connected thereto, and means connected to said lines for circulating the boiler water through said filter and for maintaining the proper height of the water levels in said boilers.
6. In an apparatus for purifying water in steam boilers, the combination of a filter, a series of boilers, and an independent circulatmg pump connected to each of said boilers for circulating the water from and to the boilers whereby any or all of said pumps boilers se arately and toa'nd from the filter may be shut down;
collectivefy. I In testimony whereof, I, the said WILLIAM 7. In an apparatus for purifying waterin P. WIEMANN, havehereunto set my hand.
steam boilers the combination of a filter, a WILLIAM P. WIEMANN. series of boilers, each having independent Witnesses: circulating pumps, and Valve controlled cir- J. COOKE cnlating lines connected to said filter and JAMESL EHN.
US43245808A 1908-05-12 1908-05-12 Device for purifying water in steam-boilers. Expired - Lifetime US903931A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US43245808A US903931A (en) 1908-05-12 1908-05-12 Device for purifying water in steam-boilers.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US43245808A US903931A (en) 1908-05-12 1908-05-12 Device for purifying water in steam-boilers.

Publications (1)

Publication Number Publication Date
US903931A true US903931A (en) 1908-11-17

Family

ID=2972358

Family Applications (1)

Application Number Title Priority Date Filing Date
US43245808A Expired - Lifetime US903931A (en) 1908-05-12 1908-05-12 Device for purifying water in steam-boilers.

Country Status (1)

Country Link
US (1) US903931A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4479459A (en) * 1982-07-13 1984-10-30 International Telephone And Telegraph Corporation Sequencing blow down valve mechanism
US5357907A (en) * 1993-12-14 1994-10-25 Sabh (U.S.) Water Heater Group, Inc. Water heater with reduced localized overheating

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4479459A (en) * 1982-07-13 1984-10-30 International Telephone And Telegraph Corporation Sequencing blow down valve mechanism
US5357907A (en) * 1993-12-14 1994-10-25 Sabh (U.S.) Water Heater Group, Inc. Water heater with reduced localized overheating
USRE37240E1 (en) 1993-12-14 2001-06-26 American Water Heater Company Water heater with reduced localized overheating

Similar Documents

Publication Publication Date Title
US903931A (en) Device for purifying water in steam-boilers.
US675276A (en) Separator.
US759131A (en) Feed-water regulator.
US780903A (en) Check-valve.
US572211A (en) Cylinder-cock
US729425A (en) Boiler-cleaner.
US462275A (en) mcgaiian
US514438A (en) Tkk nattorat
US326569A (en) kirkaldy
US1240254A (en) Double check-valve.
US631363A (en) Feed-water heater.
US315511A (en) Steam boilee
US598630A (en) Steam-separator
US982107A (en) Water-purifying system for steam-boilers.
US826811A (en) Water-purifying device for steam-boilers.
US334272A (en) Island
AT60282B (en) Steam water return.
US387074A (en) hines
US683440A (en) Feed-water heater and purifier.
US1738507A (en) Closed feed system for steam power plants
US468670A (en) Feed-water filter and separator
US200453A (en) Improvement in stop-cocks for steam boilers
US12654A (en) Improved arrangement of means for freeing steam-boilers from sediments
US750909A (en) James wallace tallman
US795827A (en) Feed-water heater and purifier.