The present invention relates generally to protection devices for installed fire protection sprinklers. More particularly, the present invention is directed to a sprinkler guard for protecting a sprinkler in its installed and operative position.
Generally, automatic fire protection sprinklers include a frame for connection to a supply pipe of firefighting fluid and a deflector member coupled to the frame for distribution of the fluid to address a fire. The frame includes a formed body having an internal passageway with a fluid inlet for receipt of the fluid and a fluid outlet defining a discharge orifice from which the fluid is discharged. The deflector member is generally affixed at a fixed distance from the fluid outlet by a pair of frame arms that extend from the frame body. Externally formed about the sprinkler body proximate the outlet is a boss or enlarged formation for engagement by an installation tool such as a wrench to facilitate sprinkler installation. In an automatic sprinkler, the fluid discharge is automatically controlled by operation of a thermally responsive trigger or actuator that maintains a fluid tight seal at the discharge orifice by, for example, exertion of pressure on a sealing assembly disposed within the outlet. When the temperature surrounding the sprinkler is elevated within a range of the nominal temperature rating of the trigger, the trigger operates thereby permitting ejection and release of the sealing assembly and the discharge of fluid through the discharge orifice. The discharged fluid impacts the fluid deflection member and is distributed in a designed spray pattern and density in order to effectively address a fire and wet the surrounding area. Several factors can influence the water distribution patterns of a sprinkler including, for example, the installation orientation and the geometry of the fluid deflection member, the distance between the deflection member and the discharge orifice, and/or the shape of the sprinkler frame to which the deflection member is coupled. Accordingly, the fluid control, distribution and performance of an automatic sprinkler is dependent upon the integrity of the sprinkler assembly and its individual components.
Automatic sprinklers are installed in a variety of environments which can expose the sprinklers to accidental impact and subject them to mechanical damage such as in low elevation or low clearance areas and/or near a high degree of human or mechanical activity. For example, storage type automatic sprinklers can be installed in a storage warehouse beneath the warehouse ceiling and above the storage area and commodities to be protected. In the storage environment, stored commodities are stacked and moved by operating personnel or material handling equipment such as forklifts. The movement of material or mechanical equipment proximate to an installed automatic sprinkler exposes the sprinkler to possible accidental impact and damage. If the trigger of the sprinkler is damaged, water may discharge from the sprinkler; or if the deflector or frame is damaged, the sprinkler may not distribute fluid in the proper pattern.
It is well known to use a sprinkler guard to protect an installed sprinkler. Sprinkler guards are configured for protecting sprinklers installed in an upright orientation, in which fluid is discharged from the sprinkler body toward the ceiling and then redirected downward by the fluid deflection member toward the protection area. Sprinkler guards are also configured for protecting sprinklers installed in a pendent orientation, in which fluid is discharged downward to impact the fluid deflection member for distribution below the sprinkler over the protection area. Generally, the sprinkler guard includes a cage-like enclosure with one open-ended base. The guard is installed by sliding the guard over the sprinkler through the base so that the sprinkler is coaxially centered within the cage. The guard includes a securement assembly that secures the open-ended base of the cage about the sprinkler body against the enlarged boss of the sprinkler body. Illustrative examples of these known sprinkler guards are shown and described in U.S. Pat. Nos. 1,469,336; 3,797,746; 5,632,339 and 5,893,418.
Although these cage-like enclosures can protect a sprinkler, the guards are bulky with a profile that is large relative to the sprinkler being protected so as to present an overall guarded sprinkler assembly that can complicate sprinkler installation particularly in low clearance areas and/or or otherwise visibly detract from the surrounding environment. In the known sprinkler guards of U.S. Pat. Nos. 1,469,336; 3,797,746; 5,632,339 and 5,893,418, the cage volume is relatively large as compared to the securement assembly. For example, the sprinkler guards in each of U.S. Pat. Nos. 1,469,336; 3,797,746 and 5,632,339 have a cage that encompasses or circumscribes the deflector member, frame arms and wrench boss. In each of the known sprinkler guards of U.S. Pat. Nos. 1,469,336; 3,797,746; 5,632,339 and 5,893,418, the cage of the sprinkler guard extends axially from a distance spaced from the deflector member to a location aligned with the frame body at or below the fluid outlet. Accordingly, for these known sprinkler guards, the internal volume of the cage is relatively large with respect to the sprinkler to encompass or circumscribe the deflector and most if not all of the frame arms. There thus remains a need for a sprinkler guard and guarded sprinkler assembly with a compact profile that sufficiently protects the critical operating components of a fire protection sprinkler and that can be used in low clearance areas and/or otherwise minimize any visible detraction from the surrounding environment. Moreover, there remains a need for sprinkler guards that can be assembled over a fire protection sprinkler either prior to sprinkler installation or thereafter.
Preferred embodiments of a sprinkler guard and guarded sprinkler assembly are provided in which the sprinkler guard includes a preferred cage and securement arrangement that facilitates assembly, handling and installation. Moreover, the preferred sprinkler guard provides for one or more preferred dimensional relationships with respect to the fire protection sprinkler being protected to present a compact assembly that can facilitate installation of a guarded sprinkler assembly in a low clearance area and minimize the space occupied by the guarded sprinkler assembly.
Preferred embodiments of a sprinkler guard protect a fire protection sprinkler having a frame body and a fluid deflector member affixed to the frame body. The sprinkler guard includes a preferred securement assembly and a preferred cage affixed to the securement assembly having a plurality of guard members defining an internal volume centered about a central vertical axis. The plurality of guard members having a first portion traversing about the internal volume to define a preferred upper boundary of the cage. The plurality of guard members also has a second portion traversing about internal volume to define a preferred lower boundary of the cage. The plurality of guard members defining a preferred insertion passageway proximate the lower boundary for receipt of the sprinkler to locate the fluid deflector member of the sprinkler within the internal volume and centered along the vertical axis. The preferred sprinkler guard defines one or more dimensional relationships with the sprinkler. Preferred dimensional relationships can be defined: (i) wherein a fixed distance between the fluid deflector member and the frame body and a clearance distance from the upper boundary of the cage to the deflector define a ratio of fixed distance-to-clearance distance (H1:H2) that ranges from 1:1 to 2:1; (ii) wherein a deflector diameter of the fluid deflector member and the clearance distance define a ratio of defector diameter-to-clearance distance (Dia:H2) that ranges from 1.8:1 to 2:1; (iii) wherein a cage diameter of the cage and the deflector diameter define a ratio of cage diameter-to-deflector diameter (WCGE:Dia) that ranges from 1:7 to 2:1; and (iv) wherein the fluid deflector member is affixed to the frame body by a pair of frame arms having an arm width therebetween and an opening width of the insertion passageway and the arm width define a ratio of opening width-to-arm width (WOPN:WARM) that ranges from 1:1 to 1.2:1.
Preferred embodiments of a sprinkler guard include a cage and a clamp assembly secured to and preferably riveted to the cage to define a preferred hinged arrangement. In preferred guarded sprinkler assemblies, the preferred clamp assembly locates operational components of a sprinkler within the cage. The preferred hinge arrangement maintains the cage and clamp assembly connected to one another when handling and installing the guard about a sprinkler thereby minimizing the number of separate components to be handled during an installation of the guard about a sprinkler. In addition to securing the cage about the sprinkler, the clamp assembly engages the sprinkler in a preferred manner that provides rigidity to the guarded sprinkler assembly. The cage defines a preferred profile about the sprinkler that is compact and in close proximity to the fluid deflecting components of the sprinkler without negatively impacting the firefighting and water distribution functions of the sprinkler.
A preferred embodiment of a fire protection sprinkler guard includes a wire cage that defines an internal volume centered about a central axis. The cage includes a plurality of terminal wire free end portions that are preferably aligned in a plane. A clamp assembly is affixed to the cage in which the clamp assembly has a first clamp member and a second clamp member which define a hinged relationship aligned in the first plane. The hinged relationship has an open state to define an opening to the cage for locating operational components of the sprinkler in the internal volume. The hinged relationship has a closed state to define a plurality of compartments for housing the wire free end portions.
A preferred embodiment of a guarded sprinkler assembly includes a sprinkler having a frame with a body defining an inlet, an outlet and an internal passageway extending between the inlet and outlet along a sprinkler axis. The body includes a wrench boss formed about the outlet with an external thread about the body for coupling to fluid supply pipe. The frame includes a pair of frame arms formed about the sprinkler body and disposed in a first plane. The frame arms extend from the sprinkler body away from the outlet in the direction of the sprinkler axis and a deflector member is coupled to the frame arms to be located axially from the body at fixed distance and centered on the sprinkler axis. The deflector has a periphery defining an outer diameter of the deflector. A wire cage is disposed about the sprinkler to define an internal volume axially aligned with the sprinkler axis with operational components of the fire sprinkler located within the internal volume. The cage preferably includes a plurality of terminal wire free end portions aligned in the first plane. A preferred clamp assembly is affixed to the cage. The clamp assembly has a first clamp member and a second clamp member which define a hinged relationship with the cage that is aligned in the first plane such that at least one of the first and second clamp members pivot with respect to the first plane to provide access to a cage opening. The preferred hinged relationship has an open state to define access for locating the operational components of the sprinkler in the internal volume and the hinged relationship has a closed state to restrict the cage opening and define a plurality of compartments for housing the wire free end portions.
The accompanying drawings, which are incorporated herein and constitute part of this specification, illustrate exemplary embodiments of the invention, and together, with the general description given above and the detailed description given below, serve to explain the features of the invention. It should be understood that the preferred embodiments are some examples of the invention as provided by the appended claims.
Shown in
The preferred clamp assembly 14 is preferably secured to the cage 12 to define a preferred hinged arrangement or relationship that limits or restricts the insertion passageway to secure the sprinkler guard 10 to the sprinkler. The preferred hinge arrangement maintains the cage 12 and clamp assembly 14 connected to one another when handling and installing the guard about a sprinkler thereby minimizing the number of separate components to be handled during an installation process. In addition to securing the cage 12 about the sprinkler, the clamp assembly 14 engages the frame of the sprinkler in a preferred manner that provides rigidity to the guarded sprinkler assembly. Because the sprinkler guard 10 provides protection to an installed sprinkler, the guard 10 does not negatively impact the fluid distribution and firefighting function of the sprinkler. In addition, the cage 12 defines a preferred profile that is compact and in close proximity to the fluid deflecting components of the sprinkler without negatively impacting the function of the sprinkler.
In the preferred embodiments of the cage 12, the first guard member 20 is disposed in a first plane P1 with the second guard member 30a and the third member 30b extending parallel to a second plane P2 which extends perpendicular to and intersects the first plane P1 to define a central vertical axis A-A of the guard 10. Each of the guard members 20, 30a, 30b and the circumscribing member 40 are preferably formed from a metal wire or rod member of suitable gauge to provide protection to the sprinkler. A preferred wire metal wire is about 0.1 inch and more preferably 0.09 inch in diameter steel wire. The first guard member 20 is preferably formed with a central portion 22 having a pair of terminal end portions 24a, 24b equidistantly spaced apart from one another about and extending to one side of the central portion 22. In the guard 10, the central horizontal portion 22 intersects the central axis A-A in the first plane P1 with the pair of terminal end portions 24a, 24b equidistantly spaced apart from one another about the central vertical axis A-A. The first guard member 20 includes two portions disposed about the central vertical axis A-A with each of the two portions extending between the horizontal portion 22 and one of the terminal end portions 24a, 24b to define a first pair of perimeter posts 26a, 26b of the cage.
In the cage 12, the second guard member 30a and a third guard member 30b are in a preferably fixed spaced apart relationship from one another equidistantly about the central vertical axis A-A to define the preferred cage insertion passageway or opening 10a for inserting operational components of a sprinkler into the cage. The wire forming second and third guard members 30a, 30b preferably define a closed form with the ends of the wire being brought and affixed together to form a central post 34 of the guard members 30a, 30b. As seen in
In the cage formation, portions of the second and third guard members 30a, 30b are disposed radially from the central vertical axis A-A to define a second pair of perimeter posts 38a, 38b and a third pair of perimeter posts 38c, 38d. Preferably each of the perimeter posts 26a, 26b, 38a, 38b, 38c, 38d extends axially parallel to the central vertical axis A-A with the first pair of perimeter posts 26a, 26b preferably disposed in the first plane P1. Alternatively, the perimeter posts can define alternate geometries in traversing about the internal volume 16 in the direction from the clamp assembly 14 toward the preferred central horizontal portion 22 of the first guard member 20. The perimeter of the cage 12 is preferably circular with the perimeter posts 26a, 26b, 38a, 38b, 38c, 38d or portions thereof spaced equidistantly from the central vertical axis A-A of the cage 12. In such a preferred embodiment of the cage 12, the circumscribing member 40 is preferably of a circular geometry and consists of a single circular member in tangential contact with the perimeter posts 26a, 26b, 38a, 38b, 38c, 38d.
The preferred clamp assembly 14 affixed to the cage 12 preferably includes a first clamp member 14a and a second clamp member 14b to define a preferred hinged relationship or arrangement 50 with respect to one another about one of the terminal end portions 24b of the first guard member 20. More preferably, the terminal end portion 24b forms a pin about which each of the clamp member 14a, 14b rotate. In a preferred embodiment, the terminal end portion 24b is preferably deformed or staked to form a rivet to secure the clamp members 14a, 14b in the hinged relationship. The hinged relationship has an open state, shown in
In the closed state of the clamp assembly 14, the first and second clamp members 14a, 14b include bearing plates 60a, 60b opposed to one another about the first plane P1. In the clamp members 14a, 14b and the bearing plates 60a, 60b defining a preferred arched or arcuate geometry for securement about a fire sprinkler body. Preferably respectively formed at one end of each of the clamp members 14a, 14b is a knuckle 52a, 52b for receipt of the terminal end portion 24b of the first guard member 20 as a pin to form the preferred hinged relationship 50. In the preferred configuration of the sprinkler guard 10, the hinge arrangement 50 is axially disposed between the arcuate bearing plates 60a, 60b and the horizontal portion 22 of the first guard member 20. Each of the opposed arcuate bearing plates include one or more clip formations or members 62 to secure the arcuate bearing plates to the sprinkler body. Preferred embodiments of the arcuate bearing plates 60a, 60b also include a plurality of bracing members that extend from each of the bearing plates in the direction of the vertical central axis to contact the sprinkler frame in a preferred manner as described herein to stiffen and provide rigidity to the guarded sprinkler assembly. The plurality of bracing members 64 preferably has four bracing members in which each arcuate bearing plate 60a, 60b includes two bracing members about the second plane P2 intersecting and perpendicular to the first plane P1. As seen in
Shown in
Firefighting fluid is delivered to the sprinkler inlet 112 at a working pressure and discharged from the outlet 114 to impact the deflector for distribution in an expected density and/or geometry about the guarded sprinkler assembly. The outer surface of the sprinkler body 110 is configured for connecting the sprinkler 10 to a fluid supply pipe. For example, the body 110 can include an external male pipe thread 111. Preferred embodiments of the external male pipe thread 111 include a nominal ½ inch-14 NPT. Larger threaded connection can include nominal ¾ inch-14 NPT pipe. To facilitate securement of the sprinkler 110 to a fluid pipe fitting such as, for example a tee fitting or union, the sprinkler body 110 includes a wrench boss 118 with a preferably hexagonal perimeter disposed about the outlet 114 and centered about the sprinkler axis X-X to provide two or more flat surfaces for engagement by an installation tool, such as for example, a sprinkler installation wrench.
To secure the sprinkler guard 10 to the sprinkler 100, the clamp assembly 14 and its arcuate bearing plates 60a, 60b can wrap about and preferably bear against the sprinkler body 110 between the wrench boss 118 and the external thread 111. Moreover, the clip members 62 are preferably dimensioned to define a recess sufficient to accommodate the thickness or height of the wrench boss 118 and secure the clamp assembly 14 about the sprinkler body 110 as seen, for example, in
Referring again to
In the closed state of the clamp assembly 14 about the sprinkler 100, the ends 24a, 34 of the guard members 20, 30a, 30b are received in the compartments of the closed compartments 15a, 15b, 15c of the clamp assembly 14. The clamp members 14a, 14b can be secured to one another by an appropriate fastening device 17 such as for example a screw and nut assembly (not shown). In the preferred guarded sprinkler assembly, the clamp assembly 14 engages the sprinkler frame arms 120 in a manner that orients the frame 105 to locate the frame arms 120 in the first plane P1 of the guard 10 aligned with the compartments 15a, 15b, 15c and hinge 50. The spaced apart bracing members 64 expose a sufficient portion of the wrench boss 118 to allow for tool access in order to adjust connection of the sprinkler to a fluid supply pipe with the guard 10 installed.
The sprinkler guard 10 protects the operative components of the sprinkler 100 in the installed and operative position of the sprinkler. The operative components can include a fluid deflecting member or deflector 200 and/or a thermally responsive actuating device 500. Preferred embodiments of the sprinkler 10, are preferably configured as automatic sprinklers such that fluid discharge from the connected sprinkler 10 and its outlet 114 is controlled by a seal assembly 400 that is disposed within the passageway 116 proximate the outlet 114 as seen in
The thermally responsive element 500 is preferably embodied as a thermally responsive frangible glass bulb, as seen in
The deflector 200 is illustratively shown bent or formed for installation in an upright orientation in which supplied firefighting fluid is discharged from the outlet 114 to impact the deflector 200 in an upward direction. Alternatively, the affixed deflector can be formed or configured for a pendent orientation in which fluid is discharged in a downward direction or in a sidewall orientation in which water is discharged horizontally. The deflector 200 is affixed to the boss 122 to locate the deflector 200 at a first fixed distance from the body 110. For example, the deflector 200 is located at a fixed distance H1 from the region between the boss 118 and the external thread 111 against which the bearing plates 60a, 60b bear of the clamp assembly 14. Accordingly, in the guarded sprinkler assembly, the deflector 200 is located at a preferred fixed distance from one or more features or structures of the sprinkler guard 10. For example, the deflector 200 is located at a preferred second fixed distance H2 from the central portion 22 of the first guard member 20. In one preferred aspect, the second fixed distance H2 defines the clearance above the deflector 200 and indirectly defines the clearance below the deflector 200 within the internal volume 16 of the cage 12 to manipulate and position the sprinkler 100 and its deflector to secure the guard 10 about the sprinkler 200. In another preferred aspect, the second fixed distance H2 defines a preferred profile of the cage 12 about the deflector 200 that is compact enough to protect the deflector yet not interfere with the distribution function of the deflector while exposing the other portions of the sprinkler frame 105 to install or loosen the sprinkler 100 from the fluid supply piping with the sprinkler guard 10 on. Moreover, the cage 12 and the perimeter posts 26a, 26b, 38a, 38c, 38d define the preferably circular perimeter and preferred radial clearance about the deflector 200.
Accordingly, in the preferred guarded sprinkler assembly, the sprinkler 100 and the guard 10 define one or more preferred dimensional relationships. For example, in one preferred embodiment with reference to
As previously noted and with reference to
With reference to
Preferably, each of the guard members 20, 30a, 30b traverse about the internal volume 16 in a manner to define the lower end perimeter or boundary 12a of the preferred profile of the cage 12 and the opposite upper end perimeter or boundary 12b of the preferred profile of the cage 12 with the upper boundary opposite the clamp assembly 14 and the lower boundary between the upper boundary 12a and the clamp assembly 14. With reference to
At the upper boundary 12b of the cage, each of the guard members 20, 30a, 30b have portions that traverse the internal volume 16 above the deflector 200. With reference to
While the present invention has been disclosed with reference to certain embodiments, numerous modifications, alterations, and changes to the described embodiments are possible without departing from the sphere and scope of the present invention, as defined in the appended claims. Accordingly, it is intended that the present invention not be limited to the described embodiments, but that it has the full scope defined by the language of the following claims, and equivalents thereof.
This application is a continuation application of U.S. patent application Ser. No. 16/639,306, filed Feb. 14, 2020, which is a 35 U.S.C. § 371 application of International Application No. PCT/US2019/058309, filed Oct. 28, 2019, which claims the benefit of U.S. Provisional Application No. 62/751,954 filed Oct. 29, 2018, each of which is incorporated by reference in its entirety.
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20220219185 A1 | Jul 2022 | US |
Number | Date | Country | |
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62751954 | Oct 2018 | US |
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Parent | 16639306 | US | |
Child | 17580761 | US |