US3574338A - Steam distribution system - Google Patents
Steam distribution system Download PDFInfo
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- US3574338A US3574338A US877615A US3574338DA US3574338A US 3574338 A US3574338 A US 3574338A US 877615 A US877615 A US 877615A US 3574338D A US3574338D A US 3574338DA US 3574338 A US3574338 A US 3574338A
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21G—CALENDERS; ACCESSORIES FOR PAPER-MAKING MACHINES
- D21G7/00—Damping devices
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F1/00—Wet end of machines for making continuous webs of paper
- D21F1/32—Washing wire-cloths or felts
Definitions
- a system for distributing steam to a travelling web includes an elongated chamber having numerous steam distribution outlets arranged therealong and a steam inlet manifold extending lengthwise along the interior of the.
- Apparatus for controllably distributing steam upon a surface includes a steam distribution chamber having a multiplicity of spaced steam distribution outlets.
- the inlet for the steam distribution chamber includes a plurality of ports arranged for individual fluid communication with the chamber.
- a valve means by which the fluid flow from the ports to the chamber is controlled. By the valve means, a high degree of regulation is exerted upon the pattern of fluid flow into the chamber. The result is variable control of the total volume of steam output from the chamber and also of the volumetric pattern of steam output across the area in which the steam distribution outlets appear.
- the volumetric pattern of steam output across the area in which the steam distribution outlets appear is herein designated the steam distribution profile.
- an elongated inlet manifold defines the inlet ports and is enclosed by an elongated housing which forms a steam distribution chamber surrounding the manifold.
- the ports are arranged along the length of the manifold so as to admit steam into the chamber along its entire length.
- a valve is provided at each port for individually controlling the flow therethrough.
- Formed along the length of the chamber area multiplicity of steam distribution outlets through which the steam passes to the material upon which it is being applied.
- the steam distribution profile in this embodiment is the volumetric pattern of steam output along the length of the chamber. It will readily be appreciated that the profile at the steam distribution outlets is a function of the amount of steam passing from the manifold, through each of the various ports, into the chamber.
- valve adjustment may be designed to produce even flow through all the steam distribution outlets (i.e., a flat steam distribution profile).
- the valves may be adjusted to provide greater flow through steam distribution outlets in certain selected areas of the chamber.
- Each of the steam distribution outlets of the preferred embodiment is surrounded by an inwardly extending ferrule. These ferrules serve to prevent the passage of condensation through the outlets when the outlets are downwardly directed.
- a primary object of this invention is to provide a steam distribution system which is adjustable to selectively vary the volumetric pattern of steam output across a surface having a multiplicity of steam outlets.
- Another object of this invention is to provide a steam distribution system having a manifold which delivers steam to a steam distribution chamber through a plurality of valved
- a further object of this invention is tor provide a steam distribution system having an improved condensate drain system.
- the steam application system of this invention is particularly useful for steam drying a continuously moving paper web during formation thereof.
- the application of dry steam to such a web raises its temperature and thereby raises the temperature of water retained therein.
- the viscosity of water decreases as its temperature increases and the decrease in viscosity, of course, serves to facilitate water removal during the paper formation. Numerous locations along the papermaking machine are appropriate for steam application. Two are illustrated in connection with the apparatus of FIG. 1.
- the Fourdrinier type papermaking machine 10 illustrated in FIG. I comprises a headbox 11 for delivering stock consisting of a fiber slurry to a Fourdrinier wire 12.
- the Fourdrinier wire is trained over a breast roll 14, a couch roll 16 and a turning roll I5.
- Beneath the upper path of the Fourdrinier wire are a plurality of table rolls l8 and a plurality of vacuum boxes 20 for draining fluid from the slurry, to form web 23 upon the wire I2.
- a plurality of idler and guide rolls 22 are provided for the lower path of wire 12.
- Couch roll 16 includes suction gland 17 for removing additional fluid from the web as the web passes over the couch roll and just before it leaves the wire.
- the press section illustrated in FIG. 1 comprises first and secondlike press stations 25 and 25, respectively.
- Each station includes a loop of felt 24 drawn over a series of idler and guide rolls 26 and a stretch roll 28.
- a pair of wringer rolls 30 and 32 are mounted along the upper path of felt loop 24.
- wringer roll 32 is mounted in each wringer roll 32.
- the wringer rolls press the web against the felt and, in cooperation with suction gland 34, remove additional fluid from the web.
- From the press stations 25 and 25' the web passes through a smoothing press 36 and thence to driers 38.
- Steam applicators installed at a given location may include a bank of applicators or a single applicator.
- a bank 40 of individual steam distributors 42 are installed over the Fourdrinier wire in advance of couch roll I6; a second bank 44 of individual steam distributors 42 are installed over the first breast station 25, in advance of wringer rolls 30 and 32.
- the banks of steam distributors operate to increase the temperature of the web at the designated locations.
- the lowered viscosity of the water in the web enhances water removal operations and results in an increase in the amount of water drawn from the web as it passes over vacuum gland 17 in couch roll 16 and as it passes between wringer rolls 30 and 32, over suction gland 34.
- a steam applicator 42 will now be described in detail in connection with FIGS. 2 through 4.
- a tubular housing 50 forms an elongated steam distribution chamber 68 having a multiplicity of steam distribution outlets 52, each of which consists of an opening in the housing having a ferrule 54 set therein.
- the ferrule includes a central bore 56, which determines the effective size of steam distribution outlet, and an upstanding portion 58.
- Portion 58 forms a fluid barrier which serves to prevent the passage from the steam distribution chamber of any condensation which may form therein during operation of the steam distribution apparatus, when steam distribution outlets 52 are downwardly directed, as will be more fully explained below.
- Tubular housing 50 is supported by end sections 60 and 62. Supported within housing 50 by end sections 60 and 62 is a cylindrical manifold 64 having a diameter which is less than the width of tubular housing 50. Steam distribution chamber 68 surrounds manifold 64. Each end of manifold 64 is sealed by an O-ring 66 to prevent undersired fluid communication between chamber 68 and the inside of manifold 64.
- a steam inlet passage 70 is provided in end section 60 for delivering steam to the manifold.
- a plurality of ports 72 are provided along the surface of manifold 64 and directed way from steam distribution outlets 52.
- a needle valve assembly 74 for controlling the passage of steam through each port.
- a saddle 76 In the vicinity of each of these needle valves is a saddle 76 which assists in maintaining manifold 64 and housing 50 in proper relationship to each other.
- Each of the saddles 76 fon'ns a threaded opening 78 for mounting a needle valve 74.
- the needle valves 74 each comprise a threaded screw 82, a lock washer and seal 84, a threaded valve steam 86 having seat 88 and head 90 and a lock nut 92.
- the screw 82 is tightened into the upper portion of threaded opening 78 of saddle 76.
- a fluid seal is formed by lock washer and seal 84.
- Steam passages 80 extend from a lower portion of opening 78 through the saddle so as to direct steam from manifold 64 outwardly against the lateral sides of housing 50.
- a threaded bore 83 formed in each screw 82 receives the threaded shank of the valve stem 86 so that the seat 88 of the valve stem is positioned for variably controlling fluid passage through the port 72.
- the head 90 of the valve stem is exposed exteriorly of the housing 50 so that the valve stem may be manually turned to raise and lower the seat 88 relative to the port.
- Lock nut 92 is provided for securely retaining the valve steam 86 in its selected position.
- End 62 of the steam distribution apparatus forms a tap 94 for a steam pressure gauge, not shown, and a tap 96 adapted to receive a drain valve means, not shown, for drawing off condensate from the interior of manifold 64. Also formed in end section 62 is tap 98 also adapted to receive a drain valve, not shown, for drawing off any condensate which may collect within chamber 68. It should be noted that, in applications where a continuous flow of steam through the manifold is desired, the conduit forming the manifold 62 may continue through end section 62, thus eliminating the need for taps 94 and 96 and their associated equipment.
- End sections 60 and 62 include threaded mounting bores 100 and 102 to assist in the attachment of applicator 42 to a suitable supporting structure, not shown.
- steam is admitted into the manifold 64 through the steam inlet passage 70 at a sufficiently elevated temperature and pressure to yield superheated steam.
- the steam passes through the ports 72 into the lower portions of threaded openings 78 in saddles 76 and thence out through steam passages 80 into chamber 68.
- the amount of steam passing through any given valve 74 is dependent upon the selected adjustment of that individual valve.
- the throttling process which occurs increases the superheated quality of the steam and thereby provides, at the outlets 52, a more efficient steam for heating the web of paper.
- the steam distributors are placed as near as practical to the web.
- a spacing of about I inch provides enough clearance to avoid interference with the web by the steam distributing apparatus while allowing the steam to traverse the space with a minimum of heat loss. Any steam which condenses in manifold 64 or chamber 68 will be drawn off through drains mounted at taps 66 and 68, respectively.
- the raised water barriers 58 established by the ferrules 54 prevent the passage of condensation through the steam distribution outlets 52.
- steam distribution apparatus of this invention is installed for applying steam to a sloping surface.
- FIG. 1 Such a situation is illustrated in FIG. 1 where bank 44 of steam distributors 42 are installed over press station 25.
- the space 104 within the lower corner chamber 68 serves as a passage to conduct condensate to the drain associated with tap 98.
- the space 104 is sufficiently large to avoid spillage of the condensate over the fluid barrier established by the ferrules 54.
- the spacing of ports 72 and steam distribution outlets 52 can be determined according to the pattern which best suits a given application. Generally, best results are obtained when the diameters of the outlets range between one-eighth inch and three-sixteenths inches, the distance between the jets within a row and between the rows of jets falls within the range from one-half inch to three-fourths inch, and the sum of the open area defined by the outlets equals substantially 4 percent of the area of the plate required to support the outlets.
- bores 56 of the steam distribution outlets 52 are one-fourth inch in diameter and arranged in rows.
- Apparatus for distributing steam comprising:
- Steam distributing apparatus further comprising means forming a raised water barrier surrounding at least a portion of said steam distribution outlets internally of said second chamber for resisting the passage of condensate from the interior of said chamber through said outlets.
- said means forming a plurality of steam supply ports comprises a steam inlet manifold disposed internally of said chamber and connected to a source of supply for conveying steam to diverse portions of said chamber through said ports.
- Apparatus for distributing steam comprising:
- valves a plurality of valves, each valve being mounted for variably regulating the passage of steam from said manifold through an individual port into said chamber, to thereby vary the distribution of steam throughout said chamber and permit the establishment of a variety of steam distribution profiles at said steam distribution outlets.
- Apparatus according to claim 9 further comprising means outside of said enclosed chamber for adjusting each of said plurality of valves individually.
- Apparatus according to claim 9 wherein paid steam distribution outlets are arranged along one side of said enclosed chamber and said ports are arranged linearly along said manifold to face in a direction away from said steam distribution outlets.
- Apparatus for distributing steam upon a travelling web comprising:
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Abstract
A system for distributing steam to a travelling web includes an elongated chamber having numerous steam distribution outlets arranged therealong and a steam inlet manifold extending lengthwise along the interior of the chamber. A plurality of ports formed along the manifold serve to admit steam from the manifold to the chamber. A system of manually adjustable valves individually controls the amount of fluid passing through each port from the manifold into the chamber to thereby enable an operator to selectively establish various profiles of steam distribution. In a preferred embodiment the system is located above the web. The steam distribution outlets are directed downwardly and each is surrounded on the interior of the chamber by an upstanding ferrule which prevents condensation from passing from the chamber onto the web.
Description
United States Patent [72] Inventor Clifford D. Shelor Covington, Va. [2|] Appl. No. 877,615 [22] Filed Nov. 18, 1969 [45] Patented Apr. 13, 1971 [73] Assignee Westvaco Corporation New York, N.Y.
[54] STEAM DISTRIBUTION SYSTEM 13 Claims, 4 Drawing Figs.
[52] U.S. Cl 239/553.3, 239/557, 239/562 [51] Int. Cl B05b 1/14 [50] Field of Search 239/557, 562, 5 5 3. 3
[56] References Cited UNITED STATES PATENTS 3,508,71 1 4/1970 Switall 239/562 Primary Examiner-Carroll B. Dority, Jr. Attorneys-Robert S. Grimshaw and James L. Neal ABSTRACT: A system for distributing steam to a travelling web includes an elongated chamber having numerous steam distribution outlets arranged therealong and a steam inlet manifold extending lengthwise along the interior of the.
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53 INVEN'IORQ CLIFFORD D. SHELOR Ill/f STEAM DISTRIBUTION SYSTEM SUMMARY OF THE INVENTION Apparatus for controllably distributing steam upon a surface includes a steam distribution chamber having a multiplicity of spaced steam distribution outlets. The inlet for the steam distribution chamber includes a plurality of ports arranged for individual fluid communication with the chamber. Associated with each of the ports is a valve means by which the fluid flow from the ports to the chamber is controlled. By the valve means, a high degree of regulation is exerted upon the pattern of fluid flow into the chamber. The result is variable control of the total volume of steam output from the chamber and also of the volumetric pattern of steam output across the area in which the steam distribution outlets appear. The volumetric pattern of steam output across the area in which the steam distribution outlets appear is herein designated the steam distribution profile.
In the preferred embodiment, an elongated inlet manifold defines the inlet ports and is enclosed by an elongated housing which forms a steam distribution chamber surrounding the manifold. The ports are arranged along the length of the manifold so as to admit steam into the chamber along its entire length. A valve is provided at each port for individually controlling the flow therethrough. Formed along the length of the chamber area multiplicity of steam distribution outlets through which the steam passes to the material upon which it is being applied. The steam distribution profile in this embodiment is the volumetric pattern of steam output along the length of the chamber. It will readily be appreciated that the profile at the steam distribution outlets is a function of the amount of steam passing from the manifold, through each of the various ports, into the chamber. Since each valve is individually controllable, the apparatus is capable of selectively providing a wide variety of steam distribution profiles. Valve adjustment may be designed to produce even flow through all the steam distribution outlets (i.e., a flat steam distribution profile). On the other hand, if an irregular profile is desired, the valves may be adjusted to provide greater flow through steam distribution outlets in certain selected areas of the chamber.
Each of the steam distribution outlets of the preferred embodiment is surrounded by an inwardly extending ferrule. These ferrules serve to prevent the passage of condensation through the outlets when the outlets are downwardly directed.
A primary object of this invention is to provide a steam distribution system which is adjustable to selectively vary the volumetric pattern of steam output across a surface having a multiplicity of steam outlets.
Another object of this invention is to provide a steam distribution system having a manifold which delivers steam to a steam distribution chamber through a plurality of valved A further object of this invention is tor provide a steam distribution system having an improved condensate drain system.
BRIEF DESCRIPTION OF THE DRAWINGS DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT The steam application system of this invention is particularly useful for steam drying a continuously moving paper web during formation thereof. The application of dry steam to such a web raises its temperature and thereby raises the temperature of water retained therein. The viscosity of water decreases as its temperature increases and the decrease in viscosity, of course, serves to facilitate water removal during the paper formation. Numerous locations along the papermaking machine are appropriate for steam application. Two are illustrated in connection with the apparatus of FIG. 1.
The Fourdrinier type papermaking machine 10 illustrated in FIG. I comprises a headbox 11 for delivering stock consisting of a fiber slurry to a Fourdrinier wire 12. The Fourdrinier wire is trained over a breast roll 14, a couch roll 16 and a turning roll I5. Beneath the upper path of the Fourdrinier wire are a plurality of table rolls l8 and a plurality of vacuum boxes 20 for draining fluid from the slurry, to form web 23 upon the wire I2. A plurality of idler and guide rolls 22 are provided for the lower path of wire 12. Couch roll 16 includes suction gland 17 for removing additional fluid from the web as the web passes over the couch roll and just before it leaves the wire.
From the Fourdrinier wire, the web passes through a press section and then through a drier section. The press section illustrated in FIG. 1 comprises first and secondlike press stations 25 and 25, respectively. Each station includes a loop of felt 24 drawn over a series of idler and guide rolls 26 and a stretch roll 28. Along the upper path of felt loop 24 is mounted a pair of wringer rolls 30 and 32. Included in each wringer roll 32 is a suction box 34. The wringer rolls press the web against the felt and, in cooperation with suction gland 34, remove additional fluid from the web. From the press stations 25 and 25' the web passes through a smoothing press 36 and thence to driers 38.
Steam applicators installed at a given location may include a bank of applicators or a single applicator. Referring again to FIG. I, a bank 40 of individual steam distributors 42 are installed over the Fourdrinier wire in advance of couch roll I6; a second bank 44 of individual steam distributors 42 are installed over the first breast station 25, in advance of wringer rolls 30 and 32. During the papermaking operation, the banks of steam distributors operate to increase the temperature of the web at the designated locations. In the manner discussed above, the lowered viscosity of the water in the web enhances water removal operations and results in an increase in the amount of water drawn from the web as it passes over vacuum gland 17 in couch roll 16 and as it passes between wringer rolls 30 and 32, over suction gland 34.
A steam applicator 42 will now be described in detail in connection with FIGS. 2 through 4. A tubular housing 50 forms an elongated steam distribution chamber 68 having a multiplicity of steam distribution outlets 52, each of which consists of an opening in the housing having a ferrule 54 set therein. The ferrule includes a central bore 56, which determines the effective size of steam distribution outlet, and an upstanding portion 58. Portion 58 forms a fluid barrier which serves to prevent the passage from the steam distribution chamber of any condensation which may form therein during operation of the steam distribution apparatus, when steam distribution outlets 52 are downwardly directed, as will be more fully explained below.
A steam inlet passage 70 is provided in end section 60 for delivering steam to the manifold. A plurality of ports 72 are provided along the surface of manifold 64 and directed way from steam distribution outlets 52. There is provided in association with each of these ports, a needle valve assembly 74 for controlling the passage of steam through each port. In the vicinity of each of these needle valves is a saddle 76 which assists in maintaining manifold 64 and housing 50 in proper relationship to each other.
Each of the saddles 76 fon'ns a threaded opening 78 for mounting a needle valve 74. The needle valves 74 each comprise a threaded screw 82, a lock washer and seal 84, a threaded valve steam 86 having seat 88 and head 90 and a lock nut 92. The screw 82 is tightened into the upper portion of threaded opening 78 of saddle 76. A fluid seal is formed by lock washer and seal 84. Steam passages 80 extend from a lower portion of opening 78 through the saddle so as to direct steam from manifold 64 outwardly against the lateral sides of housing 50. A threaded bore 83 formed in each screw 82 receives the threaded shank of the valve stem 86 so that the seat 88 of the valve stem is positioned for variably controlling fluid passage through the port 72. The head 90 of the valve stem is exposed exteriorly of the housing 50 so that the valve stem may be manually turned to raise and lower the seat 88 relative to the port. Lock nut 92 is provided for securely retaining the valve steam 86 in its selected position.
The steam application 42 is mounted above Fourdrinier machine l in any convenient manner. End sections 60 and 62 include threaded mounting bores 100 and 102 to assist in the attachment of applicator 42 to a suitable supporting structure, not shown.
In operation, steam is admitted into the manifold 64 through the steam inlet passage 70 at a sufficiently elevated temperature and pressure to yield superheated steam. From manifold 64 the steam passes through the ports 72 into the lower portions of threaded openings 78 in saddles 76 and thence out through steam passages 80 into chamber 68. The amount of steam passing through any given valve 74 is dependent upon the selected adjustment of that individual valve. As the steam passes from off through manifold into the chamber it experiences a pressure drop. The throttling process which occurs increases the superheated quality of the steam and thereby provides, at the outlets 52, a more efficient steam for heating the web of paper. The steam distributors are placed as near as practical to the web. A spacing of about I inch provides enough clearance to avoid interference with the web by the steam distributing apparatus while allowing the steam to traverse the space with a minimum of heat loss. Any steam which condenses in manifold 64 or chamber 68 will be drawn off through drains mounted at taps 66 and 68, respectively. The raised water barriers 58 established by the ferrules 54 prevent the passage of condensation through the steam distribution outlets 52.
in certain locations steam distribution apparatus of this invention is installed for applying steam to a sloping surface. Such a situation is illustrated in FIG. 1 where bank 44 of steam distributors 42 are installed over press station 25. In this application the space 104 within the lower corner chamber 68 serves as a passage to conduct condensate to the drain associated with tap 98. The space 104 is sufficiently large to avoid spillage of the condensate over the fluid barrier established by the ferrules 54.
It can be seen that installation of the steam distribution apparatus of this invention along papermaking machine will serve to heat the web of paper being formed upon the machine and facilitate removal of water therefrom in the manner described above. Specifically, an application of steam just prior to couch roll 17 and above press station 25 in advance of wringer rolls 30 and 32 heats the web so as to reduce the viscosity of the fluid retained therein and thereby permit an increased amount of fluid to be removed as the web passes over the couch roll hand between the wringer rolls, respectively.
The spacing of ports 72 and steam distribution outlets 52 can be determined according to the pattern which best suits a given application. Generally, best results are obtained when the diameters of the outlets range between one-eighth inch and three-sixteenths inches, the distance between the jets within a row and between the rows of jets falls within the range from one-half inch to three-fourths inch, and the sum of the open area defined by the outlets equals substantially 4 percent of the area of the plate required to support the outlets. In the preferred embodiment, bores 56 of the steam distribution outlets 52 are one-fourth inch in diameter and arranged in rows. The distance between the rows and also the distance between any two outlets within a row equals five-eights of an inch and the rows are staggered so that the outlets from the equilateral triangular pattern apparent in FIG. 3. With this outlet configuration, the sum of the open areas defined by the outlets is substantially 4 percent of the area of the plate required to support them. Further, in the preferred embodiments, it has been found that substantial steam distribution profile control can be obtained when valved ports occur at approximately 3% intervals along the manifold 64.
It is to be understood that the foregoing description of a preferred embodiment and that the invention is not limited to the specific apparatus shown and described. Therefore changes may be made in the described preferred embodiment without departing from the scope of the invention.
lclaim:
1. Apparatus for distributing steam comprising:
a. means forming a chamber having a multiplicity of steam distribution outlets spaced along a portion of its surface;
b. means forming a plurality of steam supply ports in fluid communication with diverse portions of said chamber; and
c. means for variably regulating the passage of steam through at least a number of said ports individually to effect variation in the distribution of steam throughout said chamber as such steam passes thereinto and thereby produce variation in the steam distribution profile established at said steam distribution outlets.
2. Steam distributing apparatus according to claim 1 wherein said means for variably regulating the passage of steam through a number of said ports comprises a plurality of valves, each valve being mounted for regulating the passage of steam through one of said number of ports.
3. Steam distributing apparatus according to claim 2 wherein the passage of steam through all of said steam supply ports is variably regulated by said plurality of valves.
4. Steam distributing apparatus according to claim 3 wherein said steam distribution outlets are substantially downwardly directed, further comprising means forming a raised water barrier surrounding each of said steam distribution outlets internally of chamber for resisting passage of condensation from the interior of said chamber through said outlets.
5. Steam distributing apparatus according to claim 1 wherein said steam distribution outlets are substantially downwardly directed, further comprising means forming a raised water barrier surrounding each of said steam distribution outlets internally of said chamber for resisting passage of condensation from the interior of said chamber through said outlets.
6. Steam distributing apparatus according to claim 1 wherein said chamber is of polygonal cross section and said steam distribution outlets are grouped in a plane face thereof nearer to the junction of said plane face and one intersecting face than to the junction of said plane face and another intersecting face whereby a condensate conduit is formed at said junction of said plane face and said other intersecting face when said plane face is angularly disposed to the horizontal so that said junction of said plane face and said other face forms the lower extremity of said apparatus.
7. Steam distributing apparatus according to claim 6 further comprising means forming a raised water barrier surrounding at least a portion of said steam distribution outlets internally of said second chamber for resisting the passage of condensate from the interior of said chamber through said outlets.
8. Steam distributing apparatus according to claim 1 wherein said means forming a plurality of steam supply ports comprises a steam inlet manifold disposed internally of said chamber and connected to a source of supply for conveying steam to diverse portions of said chamber through said ports.
9. Apparatus for distributing steam comprising:
a. an elongated steam inlet manifold forming a plurality of ports along the length thereof;
b. means forming an elongated enclosed chamber surrounding the portion of said manifold along which said ports are distributed;
c. means forming a multiplicity of steam distribution outlets along the length of said chamber; and
d. a plurality of valves, each valve being mounted for variably regulating the passage of steam from said manifold through an individual port into said chamber, to thereby vary the distribution of steam throughout said chamber and permit the establishment of a variety of steam distribution profiles at said steam distribution outlets.
10. Apparatus according to claim 9 further comprising means outside of said enclosed chamber for adjusting each of said plurality of valves individually.
11. Apparatus according to claim 9 wherein said steam distribution outlets are substantially downwardly directed, further comprising means forming a raised water barrier surrounding each of said steam distribution'outlets internally of said chamber for resisting the passage of condensation through said outlets from the interior of said chamber to the exterior thereof.
12. Apparatus according to claim 9 wherein paid steam distribution outlets are arranged along one side of said enclosed chamber and said ports are arranged linearly along said manifold to face in a direction away from said steam distribution outlets.
13. Apparatus for distributing steam upon a travelling web comprising:
a. means forming an elongated chamber adapted to be mounted above and extend substantially across said web;
b. means forming a multiplicity of steam distribution outlets along the length of a substantially downwardly directed portion of said chamber;
c. an elongated steam inlet manifold enclosed within said elongated chamber and extending substantially lengthwise thereof, said manifold forming a plurality of substantially upwardly directed ports for distributing steam through said chamber;
d. a plurality of valves, each one of which regulates the amount of steam passing through one of said ports;
e. means outside of said chamber for variably adjusting each of said plurality of valves individually to thereby vary the distribution of steam throughout said chamber and permit the establishment of a variety of steam distribution profiles at said steam distribution outlets; and
f. means forming a raised water barrier surrounding each of said steam distribution outlets internally of said chamber for resisting the passage of condensate through said ou tlets from the interior of said chamber to the exterior thereof.
UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,574 I Dated M y 5, 1971 Clifford D. Shelor Inventor(s) It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 3, line 42, following "As the steam passes from" delete "off through" and insert thetherefor. Columl 4, line 1, following "couch roll", delete "band" and insert -and therefor. Column 6 line 19 (claim 13, line 12) delete "through" and insert -throughout therefor.
Signed and sealed this 14th day of September 1 971 (SEAL) Attest:
figgfi ggfi mm. ROBERT GOT'ISCHALK Acting Commissioner of Pa
Claims (13)
1. Apparatus for distributing steam comprising: a. means forming a chamber having a multiplicity of steam distribution outlets spaced along a portion of its surface; b. means forming a plurality of steam supply ports in fluid communication with diverse portions of said chamber; and c. means for variably regulating the passage of steam through at least a number of said ports individually to effect variation in the distribution of steam throughout said chamber as such steam passes thereinto and thereby produce variation in the steam distribution profile established at said steam distribution outlets.
2. Steam distributing apparatus according to claim 1 wherein said means for variably regulating the passage of steam through a number of said ports comprises a plurality of valves, each valve being Mounted for regulating the passage of steam through one of said number of ports.
3. Steam distributing apparatus according to claim 2 wherein the passage of steam through all of said steam supply ports is variably regulated by said plurality of valves.
4. Steam distributing apparatus according to claim 3 wherein said steam distribution outlets are substantially downwardly directed, further comprising means forming a raised water barrier surrounding each of said steam distribution outlets internally of chamber for resisting passage of condensation from the interior of said chamber through said outlets.
5. Steam distributing apparatus according to claim 1 wherein said steam distribution outlets are substantially downwardly directed, further comprising means forming a raised water barrier surrounding each of said steam distribution outlets internally of said chamber for resisting passage of condensation from the interior of said chamber through said outlets.
6. Steam distributing apparatus according to claim 1 wherein said chamber is of polygonal cross section and said steam distribution outlets are grouped in a plane face thereof nearer to the junction of said plane face and one intersecting face than to the junction of said plane face and another intersecting face whereby a condensate conduit is formed at said junction of said plane face and said other intersecting face when said plane face is angularly disposed to the horizontal so that said junction of said plane face and said other face forms the lower extremity of said apparatus.
7. Steam distributing apparatus according to claim 6 further comprising means forming a raised water barrier surrounding at least a portion of said steam distribution outlets internally of said second chamber for resisting the passage of condensate from the interior of said chamber through said outlets.
8. Steam distributing apparatus according to claim 1 wherein said means forming a plurality of steam supply ports comprises a steam inlet manifold disposed internally of said chamber and connected to a source of supply for conveying steam to diverse portions of said chamber through said ports.
9. Apparatus for distributing steam comprising: a. an elongated steam inlet manifold forming a plurality of ports along the length thereof; b. means forming an elongated enclosed chamber surrounding the portion of said manifold along which said ports are distributed; c. means forming a multiplicity of steam distribution outlets along the length of said chamber; and d. a plurality of valves, each valve being mounted for variably regulating the passage of steam from said manifold through an individual port into said chamber, to thereby vary the distribution of steam throughout said chamber and permit the establishment of a variety of steam distribution profiles at said steam distribution outlets.
10. Apparatus according to claim 9 further comprising means outside of said enclosed chamber for adjusting each of said plurality of valves individually.
11. Apparatus according to claim 9 wherein said steam distribution outlets are substantially downwardly directed, further comprising means forming a raised water barrier surrounding each of said steam distribution outlets internally of said chamber for resisting the passage of condensation through said outlets from the interior of said chamber to the exterior thereof.
12. Apparatus according to claim 9 wherein paid steam distribution outlets are arranged along one side of said enclosed chamber and said ports are arranged linearly along said manifold to face in a direction away from said steam distribution outlets.
13. Apparatus for distributing steam upon a travelling web comprising: a. means forming an elongated chamber adapted to be mounted above and extend substantially across said web; b. means forming a multiplicity of steam distribution outlets along the length of a substantially downwardly directed portion of said chamber; c. an elongated steaM inlet manifold enclosed within said elongated chamber and extending substantially lengthwise thereof, said manifold forming a plurality of substantially upwardly directed ports for distributing steam through said chamber; d. a plurality of valves, each one of which regulates the amount of steam passing through one of said ports; e. means outside of said chamber for variably adjusting each of said plurality of valves individually to thereby vary the distribution of steam throughout said chamber and permit the establishment of a variety of steam distribution profiles at said steam distribution outlets; and f. means forming a raised water barrier surrounding each of said steam distribution outlets internally of said chamber for resisting the passage of condensate through said outlets from the interior of said chamber to the exterior thereof.
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US87761569A | 1969-11-18 | 1969-11-18 |
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US877615A Expired - Lifetime US3574338A (en) | 1969-11-18 | 1969-11-18 | Steam distribution system |
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US (1) | US3574338A (en) |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3776471A (en) * | 1971-11-22 | 1973-12-04 | Scott Paper Co | Method and apparatus for distributing fluids |
US3966544A (en) * | 1974-01-09 | 1976-06-29 | Jwi Ltd. | Guide shower for a fabric belt |
US4444622A (en) * | 1980-09-29 | 1984-04-24 | Devron Engineering Ltd. | Steam distribution |
US4667882A (en) * | 1981-10-15 | 1987-05-26 | West Point Pepperell, Inc. | Device for applying foam to textiles |
US4685221A (en) * | 1986-02-28 | 1987-08-11 | Thermo Electron - Web Systems, Inc. | Steam-shower apparatus and method of using same |
US4879852A (en) * | 1989-02-03 | 1989-11-14 | Tripp Kenneth C | Apparatus for maintaining soil moisture |
US4909181A (en) * | 1988-10-18 | 1990-03-20 | W. Wrigley Jr. Company | Fluid distribution bar |
US5429303A (en) * | 1993-03-20 | 1995-07-04 | V.I.B. Apparatebau Gmbh | Steam spray tube with linear acceleration channel |
US20030136395A1 (en) * | 2002-01-22 | 2003-07-24 | Alessandro Distaso | Gas burner valve assembly |
EP3967806A1 (en) * | 2012-04-11 | 2022-03-16 | GPCP IP Holdings LLC | Device for cleaning a transport belt for manufacturing a paper web |
US11313077B2 (en) | 2019-10-15 | 2022-04-26 | Ibs Of America | System, control system, an inspection system, and a method of controlling and cleaning a steam box |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3508711A (en) * | 1967-12-29 | 1970-04-28 | Ryco Graphic Mfg | Fluid dispensing system |
-
1969
- 1969-11-18 US US877615A patent/US3574338A/en not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3508711A (en) * | 1967-12-29 | 1970-04-28 | Ryco Graphic Mfg | Fluid dispensing system |
Cited By (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3776471A (en) * | 1971-11-22 | 1973-12-04 | Scott Paper Co | Method and apparatus for distributing fluids |
US3966544A (en) * | 1974-01-09 | 1976-06-29 | Jwi Ltd. | Guide shower for a fabric belt |
US4444622A (en) * | 1980-09-29 | 1984-04-24 | Devron Engineering Ltd. | Steam distribution |
US4667882A (en) * | 1981-10-15 | 1987-05-26 | West Point Pepperell, Inc. | Device for applying foam to textiles |
US4685221A (en) * | 1986-02-28 | 1987-08-11 | Thermo Electron - Web Systems, Inc. | Steam-shower apparatus and method of using same |
US4909181A (en) * | 1988-10-18 | 1990-03-20 | W. Wrigley Jr. Company | Fluid distribution bar |
WO1990004465A1 (en) * | 1988-10-18 | 1990-05-03 | Wm. Wrigley Jr. Company | Fluid distribution bar |
US4879852A (en) * | 1989-02-03 | 1989-11-14 | Tripp Kenneth C | Apparatus for maintaining soil moisture |
US5429303A (en) * | 1993-03-20 | 1995-07-04 | V.I.B. Apparatebau Gmbh | Steam spray tube with linear acceleration channel |
US20030136395A1 (en) * | 2002-01-22 | 2003-07-24 | Alessandro Distaso | Gas burner valve assembly |
US6722356B2 (en) * | 2002-01-22 | 2004-04-20 | Whirlpool Corporation | Gas burner valve assembly |
EP3967806A1 (en) * | 2012-04-11 | 2022-03-16 | GPCP IP Holdings LLC | Device for cleaning a transport belt for manufacturing a paper web |
US11313077B2 (en) | 2019-10-15 | 2022-04-26 | Ibs Of America | System, control system, an inspection system, and a method of controlling and cleaning a steam box |
US11828024B2 (en) | 2019-10-15 | 2023-11-28 | Ibs Of America | System, control system, an inspection system, and a method of controlling and cleaning a steam box |
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