US3194316A - Adjustable drop sprig for a fire sprinkler system - Google Patents

Description

y 1965 E. P. FAULKNER ETAL 3,194,316

ADJUSTABLE DROP SPRIG FOR A FIRE SPRINKLER SYSTEM Filed Sept. 18. 1961 FICLI l9 FIG. 3

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INVENTORE FA ULKN J A IQES IM TUTTLE United States Patent '0 3,194,316 ADJUSTABLE DROP SPRIG FGR A FIRE SPRINKLER SYSTEM Enoch P. Faulkner, 1556 Raymore Road, and James W. Tattle, 3639 Lamar Ava, both of Memphis, Tenn. Filed Sept. 18, 1961, Ser. No. 138,668 8 Claims. (Cl. 169-37) This invention relates to an improved drop sprig of the type used in a fire sprinkler system.

The usual practice in fire sprinkler systems is to have water carrying pipes which run horizontally through a building and from which at spaced intervals are provided so-called drop sprigs which depend from the horizontal pipes and carry the water to the respective sprinkler heads attached to the lower ends of the sprigs. Some of these fire sprinkler systems are designed to have the sprinkler heads flush against the ceiling. In installing a sprinkler system it becomes a problem and is time consuming to make the sprig the correct length to position thesprinkler 3,194,316 Patented July 13, 1965 A further object is generally to improve the design and construction of drop sprigs.

The means by which the foregoing and other objects of the present invention are accomplished and the manner of their accomplishment will be readily understood from the following specification upon reference to the accompanying head exactly flush against the ceiling, particularly in that type of constructionhaving an acoustical ceiling which is lower than the permanent ceiling. In this type of ceiling there is usually quite a variation in the distance from the horizontal pipes to the acoustical ceiling due to construction and manufacturing variations, etc. The present prac- .tice is to thread each sprig into the horizontal pipe, measure the length necessary by making a mark on the sprig adjacent the acoustical ceiling, take the sprig down to thread the lower end thereof, screw it back into the horizontal pipe, and finally screw the sprinkler head into place. Also, in other types of installations where the sprigs are arranged so that the sprinkler heads are spaced below the ceiling, many times it is desirable to be able to move the sprigs out of the way so that they will not be knocked against and bent out of place. As for example, when other craftsmen are working in the area with ladders, etc., it is not possible to move the sprigs of the heretofore known types without having first to cut the water off, drain the system, and then unscrew the sprigs.

The present invention is directed towards overcoming the above mentioned and other problems relative to sprinkler systems by providing an adjustabledrop sprigs.

Thus, one of the objects of the present invention is to provide in afire sprinkler system a drop sprig comprising telescopically joined upper and lower pipes so arranged that the lower pipe may be adjusted to position the sprinkler head at the desired height.

A furtherflobject is to provide such a drop sprig that is provided with means for eificiently and effectively seal- .ing the upper and lower pipes against any flow ofwater between said pipes.

A further object is to provide in such a drop sprig sealing means which provides a tighter seal as the water pressure is increased. 7

' A further object is to provide such a drop sprig that can be adjusted when water pressure is in the sprinkler system. v p p A further object is to provide such a drop sprig in which the sprinkler head can be rotatably adjusted. I A further object is to provide, in the type of sprinkler system in which the sprinkler heads are spaced below the ceiling, an adjustable drop sprig that can be shoved out of the way when desired to prevent undesired knocking against and bending, as for example, when other craftsmen are'working in the area.

A further object is to provide a sprig that saves considerable time and expense in the installation of a sprinkler system. a

A further object is to provide means in such a sprig for catching sediment and the like.

drawings, in which:

FIG. 1 is a fragmentary view of an installed sprinkler system employing the drop sprig of the present invention.

FIG. 2 is an enlarged sectional view taken as on the line IIII of FIG. 1.

FIG. 3 is an enlarged fragmentary sectional view taken as on the line IIIIII of FIG. 1. FIG. 4 is'an enlarged fragmentary side elevational view of the upper end of the lower pipe.

Referring now to the drawings in which the various parts are indicated by numerals, FIG. 1 show a typical installation of the present invention wherein it will be seen one of thedrop sprigs 11 of the present invention is shown connected to ahorizontal pipe 13, which forms part of the sprinkler system and is installed in the building, not shown, for carrying water and the like. Thenumeral 15 designates the ceiling of one of the rooms of the building and, as will be seen, theceiling 15 is spaced belowpipe 13. Thepipe 13 may be located below the permanent ceiling, not shown, or may be disposed in the ceiling. Although only onedrop sprig 11 is shown in FIG. 1, it will be understood that it is contemplated that a plurality of such drop sprigs be connected topipe 13 at desired points.

Each ofdrop sprigs 11 comprises anupper pipe 17 connected adjacent the upper end thereof topipe 13 as by teams of theusual T connection 19 interposed inpipe 13 with the upper pipe being joined to the depending branch .of the T connection so that water is adapted to flow frompipe 13 intoupper pipe 17.Upper pipe 17 is preferably flared outwardly and downwardly adjacent the upper end thereof as at 21 and extends to the upper end of the main cylindrical portion 23 ofpipe 17.

The lower end ofupper pipe 17 is open as at 25, and the upper end of alower pipe 27; smaller in diameter thanupper pipe 17, istelesco-pically received in the upper pipe through openlower end 25; A sprinkler head 29 of usual construction is attached to the lower end oflower pipe 27 so that when the sprinkler head is actuated in the usual manner into an open position as by the heat of a fire, the water is adapted to flow frompipe 13 intoupper pipe 17, then into lower pipe-27 and out sprinkler head 29.

An annular groove'31 is provided in the exterior oflower pipe 27 adjacent the upper end thereof to provide .an upwardly facing shoulder '33 against which a resilientannular gasket 35 is adapted to fit and to extend outwardly into sliding contact with theinterior wall 37 ofupper pipe 17. It is contemplated thatresilient gasket 35 be in the form of 1a neoprene ()--ring or the like so that a completely watertight s'e-al' is provided to preventflow teriorwall 37 so that :as the Water pressure increases the seal is enhanced. In addition, it will be understood thatgroove 31 keeps gasket 35 in place relative tolower pipe 27, as when the lower pipe is moved up and down relative toupper pipe 17.

A plurality of threadedholes 39 are provided throughupper pipe 17 adjacentlower pipe 27 and each of the threaded holes receives aset screw 41 which engageslower pipe 27 to anchor thelower pipe 27 andupper pipe 17 in a fixed position relative to one another.

from, said upper pipe being open adjacent the lower end thereof, a lower pipe smaller in diameter than said upper pipe and having its upper end open and telescopically received in the lower end of said upper pipe, at valved sprinkler head connected to said lower pipe adjacent the lower end thereof, said sprinkler head including means responsive to heat from a fire for opening said head for passage of water therethroug-h, said lower pipe being rectilinearly movable relative to said'upper pipe to position said sprinkler head at a desired position, said lower pipe having an annular groove adjacent the upper end thereof, sealing means fittedint-o said annular groove and ex tending outwardly into sliding contact with the interior of said upper pipe for sea-ling said upper and lower pipes against flow of water and the like therebetween and for catching sediment and the like, said sealing means being resilient whereby said sealing means is adapted to be forced against said upper and lower pipes by an increase in the water pressure and the like to enhance the seal between said upper and lower pipes, at least one threaded hole extending through said lower pipe adjacent said upper pipe, and a set screw threadedly engaged in said hole and contacting said upper pipe to hold said lower pipe and said sprinkler head in a fixed position with said sprinkler head being disposed substantially at the undersurface of said ceiling panel of said room, said sprinkler head :being normally in a closed disposition for holding Water in the pipes of said system until said sprinkler head is actuated by a fire.

'5. In a fire sprinkler system in a building with the sprinkler system including a substantially horizontally disposed water supply pipe arranged above the ceiling panel of a room of the building, a plurality of drop sprigs depending from said water supply pipe; each of said drop sprigs comprising a first cylindrical pipe disposed vertically, means connecting the upper end, of said first pipe to said supply pipe 'ior passage of water into said first pipe, a second cylindrical pipe disposed vertically, the outside diameter of said second pipe being smaller than the inside diameter of said first pipe, the upper end portion of said second pipe being telescopically fitted into the lower end portion of said first pipe, circular-seal of resilient material sealingly interposed between said first pipe and said second pipe for preventing passage of water between head having means responsive to the heat of a fire for opening said head for passage of water therethrough, said sprinkler head being securely attached at the lower end portionthereof to said second pipe with said sprinkler head being positioned substantially at the undersurface of said ceiling panel of said room, said sprinkler head being disposed normally in a closed disposition for holding water in the fire sprinkler system until said sprinkler head is actuated by a fire and moved to an open disposition.

6. In a fire sprinkler system in a building with the sprinkler system including a substantially horizontally disposed water supply pipe arranged above the ceiling panel of a room of the building, a plurality of drop sprigs dependently secured from said water supply pipe; each of said drop sprigs comprising a first cylindrical pipe disposed vertically, said first pipe including an inside cylindrical surface and an outside cylindrical surface, means connecting the upper end of said first pipe to said supply pipe for passage of water into said first pipe, a second cylindrical pipe disposed vertically, said second pipe including a cylindrical inside surface and a cylindrical outside surface, said outside surface of said second pipe being smaller than said inside surface of said first pipe, the upper end portion of said second pipe being telescopically fitted into the lower end portion of said first pipe, an annular circumferentially formed groove provided in said outside surface of said second pipe, a circular seal of resilient material snugly fitted into said annular groove, said circular seal being interposedly disposed between said inside surface of said first pipe and said groove of said second pipe, said circular seal and said groove providing means for preventing passage of water between said first pipe and said second pipe, and a valved sprinkler head havingmeans responsive to the heat from a fire for opening said head for passage of water therethrough, said sprinkler head being positioned substantially at the under surface of said ceiling panel of said room, said valved sprinkler head being normally secured in a closed disposition for holding Water in said sprinkler system and until said sprinkler head is actuated to an open disposition by the heat from the fire.

7. In a fire sprinkler system in a building with the sprinkler system including a substantially horizontally disposed water supply pipe arranged above the ceiling panel of a room of the building, a plurality of drop sprigs depending from said water supply pipe; each of said drop sprigs comprising a first cylindrical pipe disposed vertically, said first pipe including an inside cylindrical surface and an outside cylindrical surface, means connecting the upper end of said first pipe to said water supply pipe for passage of water into said first pipe, at second cylindrical pipe disposed vertically, said second pipe including a cylindrical inside surface and a cylindrical outside surface, said outside surface of said second pipe being smaller than said inside surface of said first pipe, the upper end portion of aid second pipe being telescopically fitted into the lower end portion of said first pipe, an annular circumferentially disposed groove provided in said outside surface of said second pipe and adjacent the upper end portion thereof, a circular seal of resilient material snugly fitted in said annular groove, said circular seal being interposedly disposed between said inside surface of said first pipe and said groove of said second pipe, said circular seal preventing passage of water between said first pipe and saidsecond pipe, a valved sprinkler head having means responsive to the heat of a fire for opening said head for passage of water therethrough, said sprinkler head being positioned substantially at the undersurface of said ceiling panel of said room, and means adjustably securing said second pipe at a selected position relative to said first pipe and for preventing telescopic movement of said first pipe relative to said second pipe, said valved sprinkler head being normally secured in a closed disposition for holding water in said fire sprinkler system until said sprinkler head is actuated to an open disposition by the heat of a fire.

8. The structure of claim 7 in which said means fixedly securing said second pipe at a selected position relative to said first pipe includes a threaded hole extending through said first pipe and a set screw threadedly engaged in said hole and contacting said second pipe.

References Cited by the Examiner UNITED STATES PATENTS 653,384 7/00 Grove 285-303 1,714,803 5/29 Mueller 285-302 1,962,534 6/34 Sweetland 239201 2,031,754 2/36 Bacigalupi 285-302 X 2,291,818 8/42 Loepsinger 16937 2,478,976 8/49 Modlin 285-302 2,494,598 1/50 Waring 285302 X 2,968,440 1/61 Cone 239303 3,007,528 11/61 Gloeckler 169-41 3,083,914 4/ 63 Smith et a1 239203 3,084,869 4/63 Hutty et a1. 239201 EVERETT W. KIRBY, Primary Examiner.

EUGENE F. BLANCHARD, Examiner.

Claims (1)

1. IN A FIRE SPINKLER SYSTEM OF THE WET SYSTEM TYPE INCLUDING A CONDUIT PIPE FOR CARRYING WATER AND THE LIKE AND WITH SAID PIPE BEING ARRANGED ABOVE THE CEILING PANEL OF A ROOM OF A BUILDING, AN ADJUSTABLE DROP SPRIG COMPRISING AN UPPER PIPE CONNECTED ADJACENT THE UPPER END THEREOF TO SAID FIRST MENTIONED PIPE AND DEPENDING THEREFORM, SAID UPPER PIPE BEING OPEN ADJACENT THE LOWER END THEREOF, A LOWER PIPE SMALLER IN DIAMETER THAN SAID UPPER PIPE AND HAVING ITS UPPER END OPEN AND TELESCOPICALLY RECEIVED IN THE LOWER END OF SAID UPPER PIPE, A VALVED SPRINKLER HEAD CONNECTED TO SAID LOWER PIPE ADJACENT THE LOWER END THEREOF, SAID SPRINKLER HEAD INCLUDING MEANS RESPONSIVE TO HEAT FOR OPENING SAID HEAD FOR PASSAGE OF WATER THERETHROUGH, SAID LOWER PIPE BEING RECTILINEARLY MOVABLE RELATIVE TO SAID UPPER PIPE TO POSITION SAID SPRINKLER HEAD AT A DESIRED POSITION, SAID LOWER PIPE HAVING A SHOULDER ADJACENT THE UPPER END THEREOF, SEALING MEANS FITTED AGAINST SAID SHOULDER AND EXTENDING OUTWARD-

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