|Publication number||US2572208 A|
|Publication date||Oct 23, 1951|
|Filing date||Jan 8, 1947|
|Priority date||Jan 8, 1947|
|Publication number||US 2572208 A, US 2572208A, US-A-2572208, US2572208 A, US2572208A|
|Inventors||Sievert Bernard E|
|Original Assignee||Woodruff & Edwards Inc|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (2), Referenced by (9), Classifications (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Oct. 23, 1951 B. E. slEvER-r WATER RUNOFF' CONTROL CONSTRUCTION 2 SHEETS-SHEET l Filed Jan. 8, 1947 INVENTOR.
l 2m [Y MINUTES Oct. 23, 1951 B. E. slEvERT 2,572,208
WATER RUNOFF cONTROJ CONSTRUCTION Filed Jan. a, 1947 2 SHEETS-SHEET 2 /5 TOR. I
Patented Oct. 23, 1951 7."
WATER RUNOFF CONTROL CONSTRUCTION Bernard E; Sievert, Chicago, Ill., assgnor to Woodruff & Edwards, Inc., Elgin,
ration of Illinois Ill., a corpo- ApplicationJanuary 8, 1947., Serial No. 720,742 s claims. (o1. 18a- 31) The present invention relates to a drain con- More particularly the present invention relates to a drain construction having means for limiting the rate at which an accumulation of water may flow into the drain until such time as the wa-l ter may exceed a predetermined depth when the water is permitted to escape down the drainat a rate equal to the maximum capacity of the drain.
In congested areas, such as industrial districts, the run-olf of rain-water presents a serious problem. Large areas are covered by buildings and other structures. When it rains, the water, instead of falling on the earth and being absorbed to a considerable extent thereby, falls on buildings or other constructions from whence practically all of it ows to the storm sewers provided for receiving it. Consequently, when there is a heavy rainfall, the sewers frequently become overloaded and back up, causing considerable damage. In many instances municipalities have refused building permits because of insufflcient sewer capacity. The present invention is designed to prevent the overloading of the sewers during Aa heavy rainfall and accomplishes this result by restricting the flow from the various expansive areas upon which the water may collect, to a percentage of the known heaviest rainfall in that area so that the water is fed slowly into the drain or drains. However, if the depth increases beyond a predetermined limit, such for example as would result in a dangerous load on the roof or other area, the water is automatically permitted to run off as rapidly as the drains can handle it. With the proper arrangement of the control means, such an occurrence would be ex- E f tremely rare.
An object of the present invention is to provide a drain construction for controlling the rate of flow into the drain of accumulated water from a roof or other expansive area.
Another object is to provide a control construction of the type above referred to which will permit the accumulated water to enter the drain to the full capacity of the drain whenever a predetermined depth of accumulated water is exceeded.
Further objects and advantages will be apparent from the specication and claims when considered with the accompanying drawings, in which latter Fig. 1 is a top plan view of a. drain construction embodying the present invention;
v Fig. 2 is a cross-sectional view partially in Y elevation taken along the line 2 2 of Fig. 1; and
Fig. 3 is a graph based on a uniform rainfall of four inches per hour, showing the rate of accumulation of water and a desired rate of discharge thereof through said drain construction. Referring more particularly to the drawings, there 'is shown a drain construction embodying the present invention comprising a substantially bowl-shaped main body portion I adapted to be placedin an aperture provided therefor in any desired type of roof construction, that shown in Fig. l being concrete. The main body portion which is provided with a substantially horizontally extending flange 3 is preferably positioned in the roof aperture during construction of the roof. A downwardly directed tube 4 having an inwardly extending flange 5 is provided at the lower end of the main body portion I. The tube 4 is designed to fit over a downspout or other vertical drain pipe 6, a suitable ring or packing 1 being'provided between the two to prevent the escape of any liquid therebetween.
Thedrain is so positioned in the roof that the upper face of the horizontal fiange 3 is substantially flush with the top of the cement or other comparable portion of the roof. The roof and the flange may thereafter be covered with the usual tar or asphalt and gravel 8.
Allip 9 having a substantially horizontal upper face is provided on the inside of the main body portion-I for supporting a dome strainer I0 provided with vertically extending slots or openings therein. A ashing ring II having a serrated gravel stop or guard I2 is secured by suitable means to the main body portion I. While various means may be employed, that illustrated comprises bolts I3 carried by shafts I4 pivotally mounted between spaced ears I5. Ihe dashing ring I I is provided ywith inwardly extending lugs I 5a having slots I6 therein for receiving the bolts I3. Nuts I'I securely hold the flashing ring lI I in proper position when tightened against the upper face of the lugs I 5.
With the construction heretofore described, any accumulated water such as from a rainfall or melting snow could run off immediately to the full capacity of the drain and vertical pipe 6. Consequently, in certain areas such as industrial districts where roofs and other surfaces cover large portions of the area a heavy rain overloads the sewers and causes the water to back up. In order to prevent this and control the flow of accumulated water to the downwardly directed passageway in the drain, a barrier or collar I3 is positioned on the dashing ring Il about the downwardly extending drain passageway. A gasket i9 is recessed into the lower face of the barrier to prevent water escaping thereunder.'v The barrier is also secured` in place by the bolts I3 which extend up into the barrier and iit into the slotted lugs 20 thereon. Wing nuts 2| engaging the top of the lugs 20 hold the barrier tightly against theflashing ring. I l.-
The barrier IE which is preferably made of metal, and as shown in Fig. 1 may bethicker at the base than at the top, is providedwith an inwardly: olf-set portion 22. An opening 23 provided in the bottom of the off-set portion 22 controls` the flow of liquid through the barrier to the downwardly extending passageway of the drain. While the opening 23 is preferably round, it may be anyeother desired shape such as triangular, oval or elongated.
The area of the hole in the barrier is preferably determined with reference to substantiallyv the .Y
maximum rainfall per hour in the locality in which the drain is to be used. For example, if the rainfall, which is assumed to be uniform, amounts to 4 inches per hour for one hour, it is desirable that the rainfall iiow off the roof at an averagerate of ten' per cent (10%) of the rainfall rate as illustrated in the chart (Fig. 3). Thus at the end of one hour of maximum rainfall the height of the accumulated water on the other surface would be about 3.6 inches, some of the water having escaped through the opening during the hour. Consequently the hole: 23 has an area to permit the accumulated water to pass into the drain and flow oif by the end of nine more hours. This will prevent overloading ofthe l stormv sewers and at the same time will not result in too great a load for a roof. However, in order to prevent any overloadsA on the roof, the barrier I8 is of a height to permit the water to flow over the top thereof and into the downwardly country the area of the opening 2,3 should be based upon the assumption of a maximumV rainfall of 4 inches per hour for one hour. On this assumption the area of the opening may be determined by the formula where A is the roof area in square feet and d is the diameter of a round opening in inches. Having the diameter of a round opening, the area thereof may be easily ascertained by the formula Ef 4 If the maximum rainfall is substantially more or less than the 4 inches per hour assumed, the orifice in the barrier may be made larger or smaller.
Instead of employing a single opening to permit the iiow of water through the barrier, a plurality of openings may be employed in which case the totalv area of the openings is preferably determined by the formula above given, the same as when a single hole is relied upon.
While I have shown and described a particular embodiment of the present invention, it is to be understood that various changes may be made therein without departing from the scope of the present invention and it is to be understood that all'such changes are within the purview thereof. I claim:
1'. In a drain construction having a downwardly directed passageway, means for limiting the r-ate of" ii'ow of uid from the area thereabout to said passageway comprising an upstanding barrier provided with at least one opening. in a side thereof positioned substantially about and extending a substantial distance above-said pas sageway and substantially preventing the passage of iiuid within a predetermined depth from said area to said passageway except through said barrier opening, said opening being of a predetermined size to limit the rate of ow of uid therethrough.
2. In a drain construction having a downwardly directed passageway, means for limiting the rate of'ilow of fluid from thev area thereaboutto said passageway, comprising an upstanding: barrier provided with at least, one opening. in the lower portion of a side thereof positioned substantially about and extending' a substantial, distance above said passageway and substantially preventing the. passage of iiuid within a prede.- termined: .depth from said area to said passageway except through said barrier opening, said opening being of, a predetermined size to limit the rate of iiowk of fluid therethrough.
3. Inadrain construction having a downward.. ly directed passageway, means for limiting the rate of flow of uid from the area thereabout to said passageway'comprising an upstanding barrier positioned about and extending a substantial distance above said passageway having an inwardly oiset portion-in one side with at least one opening iny a side wall of said offset portion, said barrier acting to substantially prevent the passage of. fluid within a predetermined depth from said area to said passageway except through said barrier opening, said opening being of a predetermined size to limit the rate of flow of fluid therethrough.
BERNARD E. SIEVERT.
REFERENCES CITED The following references are of record. in the file of this patent:
UNITED STATES PATENTS Number Name Date 1,348,945 Hirshstein Aug. 10, 1920 2,283,160 Boosey May 19,. 1942
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US1348945 *||Jan 27, 1916||Aug 10, 1920||Joseph Hirshstein||Double-drainage roof-drain and sediment-cup|
|US2283160 *||Mar 15, 1941||May 19, 1942||Boosey Edward W N||Roof drain|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3357561 *||Oct 15, 1965||Dec 12, 1967||Zurn Ind Inc||Roof drain|
|US3469698 *||Apr 5, 1967||Sep 30, 1969||Josam Mfg Co||Controlled flow drain|
|US3517813 *||Sep 16, 1968||Jun 30, 1970||Thaler Kunibert||Roof drain|
|US3529723 *||Nov 7, 1968||Sep 22, 1970||Hagedorn Charles L||Roof drain|
|US5524393 *||Jun 29, 1993||Jun 11, 1996||Werner Nill||Method and device for delaying the run-off of flash-storm water or ordinary rainwater from roofs and other surfaces with water-retention capability|
|US5800092 *||May 30, 1996||Sep 1, 1998||Nill; Werner||Method for delaying run-off of flash-storm water or ordinary rainwater from roofs and other surfaces with water-retention capability|
|US8834714 *||Nov 7, 2013||Sep 16, 2014||Yu-Chia Chien||Movable filter grid for a drain inlet|
|US20140158593 *||Nov 7, 2013||Jun 12, 2014||Yu-Chia Chien||Movable filter grid for a drain inlet|
|EP0176683A2 *||Jul 22, 1985||Apr 9, 1986||Alwitra KG Klaus Göbel||Roof rain water outlet and an accessory for such an outlet|
|U.S. Classification||210/166, 210/315|
|Cooperative Classification||E04D2013/0427, E04D13/0409|