Flexible assembly for sprinklers
An assembly for connecting a sprinkler to a branch line of a fire suppression system includes a flexible conduit having one end attached to the branch line. The opposite end is attached to the sprinkler. An adapter may be positioned between the conduit and the sprinkler, between the conduit and the branch line, or between the conduit and both the branch line and the sprinkler. The adapter contains a rotating joint which prevents torque from being applied to the conduit. The adapter between the conduit and the sprinkler is received within a bracket. The bracket also receives a cross beam for securing the sprinkler relatively to the branch line.
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This application is a continuation of and claims priority to U.S. patent application Ser. No. 13/873,505, filed Apr. 30, 2013, now U.S. Pat. No. 9,375,594, which is a continuation of and claims priority to U.S. patent application Ser. No. 13/709,313, filed Dec. 10, 2012, now abandoned, which is a divisional of U.S. patent application Ser. No. 12/877,357, filed Sep. 8, 2010, now U.S. Pat. No. 8,336,920, which is based upon and claims priority to U.S. Provisional Application No. 61/241,615 filed Sep. 11, 2009, all of which are hereby incorporated by reference herein.
FIELD OF THE INVENTIONThis invention relates to a flexible assembly for connecting sprinklers to branch lines in a fire suppression system.
BACKGROUND
Fire suppression sprinkler systems used, for example, in structures such as office buildings, hotels, warehouses and private residences have a piping network comprising a riser pipe connected to a source of pressurized fire suppressing fluid, for example, a liquid, such as water, or a gas, such as halon. Branch pipe lines are connected to the riser pipe at each floor of the structure and extend throughout each floor so that fire suppressing fluid may be delivered through the branch lines to any location on each floor. The branch lines are usually suspended on hangers attached to the structural ceiling of each floor. Sprinklers, which serve to discharge the fluid in the event of a fire, are connected to the branch lines by flexible conduits. The use of flexible conduits provides a great advantage as it allows the position of the sprinklers to be easily adjusted, both laterally and vertically, in relation to the decorative ceiling which may be suspended beneath the structural ceiling of each floor. The flexible conduit saves time during installation, as it obviates the need for the technician to install a rigid pipe assembly, comprised of couplings and pipe segments, to connect the branch line to each sprinkler head on the floor. With a rigid pipe assembly even a minor miscalculation, either in the design or installation, can be aesthetically and functionally unacceptable, and require a redesign and reinstallation.
Although advantageous, flexible conduits used to connect sprinklers to branch lines of fire suppression systems have certain drawbacks. For example, one disadvantage which occurs when flexible conduits are used is the problem of over-torquing the conduit. The sprinklers may have threaded connections and torque is applied to connect them to the end of the flexible conduit. Torque inadvertently applied to the conduit during installation of the sprinkler may cause leaks to occur, for example, at the fitting where the conduit is connected to the branch line. Additionally, torque may be applied to the flexible conduit as a result of a seismic event such as an earthquake due to relative motion between the branch line and the sprinkler. If the applied torque damages the flexible conduit, causing it to leak, that may prevent fire suppressing fluid from reaching other parts of the system where a fire has broken out as a result of the event. It is advantageous to avoid applying torque to the flexible conduit to avoid damage. There is clearly a need for a flexible assembly which avoids the disadvantages associated with known flexible conduit.
SUMMARYThe invention concerns an assembly for connecting a sprinkler to a branch line of a fire suppression system. In one example embodiment the assembly comprises a flexible conduit having a first end connectable to the branch line, and a second end connectable to the sprinkler. The conduit provides fluid communication between the branch line and the sprinkler. A first adapter is positioned between the sprinkler and the second end of the conduit for effecting attachment of the sprinkler to the conduit. The first adapter has a bore providing fluid communication between the sprinkler and the conduit. The first adapter has a first adapter portion attachable to the sprinkler and a second adapter portion attached to the second end of the conduit. The first and second adapter portions are rotatable relatively to one another. A bracket has an opening which receives the first adapter portion. The bracket has a locking unit movably mounted on the bracket. The locking unit engages and retains the first adapter portion within the opening. A cross beam is received by the bracket for securing the bracket in relation to the branch line.
In a specific example embodiment the second adapter portion comprises a tube attached to the second end of the conduit. The tube is received within the bore of the adapter in the first adapter portion. A ring seal is positioned between an outer surface of the tube and an inner surface of the bore in the first adapter portion for effecting a fluid-tight connection between the first and second adapter portions. A split ring is positioned between the outer surface of the tube and the inner surface of the bore in the first adapter portion. The split ring has an inner portion sized to fit within an outwardly facing circumferential groove positioned in the outer surface of the tube. The split ring further has an outer portion sized to fit within an inwardly facing circumferential groove positioned in the inner surface of the bore in the first adapter portion. The split ring prevents relative axial movement between the first and second adapter portions but permits relative rotation between the first and second adapter portions about a longitudinal axis concentric with the bore.
In another example embodiment the first adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding the bore. The second adapter portion comprises a convex spherical surface surrounding the bore and positioned at one end thereof. An opposite end of the second adapter portion is attached to the second end of the conduit. The convex spherical surface fits within the concave spherical surface thereby permitting the first and second adapter portions to rotate relatively to one another. A retainer has a concave spherical surface. The retainer surrounds the convex spherical surface of the second adapter portion and is attached to the first adapter portion. The second adapter portion is captured between the retainer and the first adapter portion.
By way of example a first seal is positioned between the second adapter portion and the retainer, and a second seal is positioned between the retainer and the first adapter portion. Further by way of example the retainer comprises a nut which threadedly engages the first adapter portion.
In a specific example embodiment the assembly comprises the sprinkler.
In another example the assembly further comprises a second adapter positioned between the branch line and the first end of the conduit for effecting attachment of the conduit to the branch line. The second adapter has a second bore providing fluid communication between the branch line and the conduit. The second adapter has a third adapter portion attachable to the branch line and a fourth adapter portion attached to the first end of the conduit. The third and fourth adapter portions are rotatable relatively to one another.
Further by way of example the fourth adapter portion comprises a second tube attached to the first end of the conduit. The second tube is received within the bore of the second adapter in the third adapter portion. A ring seal is positioned between an outer surface of the second tube and an inner surface of the bore in the third adapter portion for effecting a fluid-tight connection between the third and fourth adapter portions. A split ring is positioned between the outer surface of the second tube and the inner surface of the bore in the third adapter portion. The split ring has an inner portion sized to fit within an outwardly facing circumferential groove positioned in the outer surface of the second tube. The split ring further has an outer portion sized to fit within an inwardly facing circumferential groove positioned in the inner surface of the bore in the third adapter portion. The split ring prevents relative axial movement between the third and fourth adapter portions but permitting relative rotation between the third and fourth adapter portions about a longitudinal axis concentric with the second bore.
In another example embodiment the third adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding the bore in the third adapter portion. The fourth adapter portion comprises a convex spherical surface surrounding the bore in the fourth adapter portion and positioned at one end thereof. An opposite end of the fourth adapter portion is attached to the first end of the conduit. The convex spherical surface of the fourth adapter portion fits within the concave spherical surface of the third adapter portion thereby permitting the third and fourth adapter portions to rotate relatively to one another. A second retainer has a concave spherical surface; the second retainer surrounds the convex spherical surface of the fourth adapter portion and is attached to the third adapter portion. The fourth adapter portion is captured between the second retainer and the third adapter portion.
Another example assembly further comprises a third seal positioned between the second retainer and the fourth adapter portion and a fourth seal positioned between the second retainer and the third adapter portion. In another example the second retainer comprises a nut which threadedly engages the third adapter portion.
By way of example the bracket comprises a plurality of sidewalls attached to one another in spaced relation to define a U-shaped opening. In a specific embodiment the locking unit comprises a wire bale pivotably attached to the bracket. In another embodiment the locking unit comprises a finger pivotably attached to the bracket.
Another example embodiment of an assembly for connecting a sprinkler to a branch line of a fire suppression system comprises a flexible conduit having a first end connectable to the branch line, and a second end connectable to the sprinkler. The conduit provides fluid communication between the branch line and the sprinkler. A first adapter has a first adapter portion attachable to the branch line and a second adapter portion attached to the first end of the conduit. The first and second adapter portions are rotatable relatively to one another. The first adapter has a bore providing fluid communication between the branch line and the conduit. A second adapter is positioned between the sprinkler and the second end of the conduit for effecting attachment of the conduit to the sprinkler. The second adapter has a bore providing fluid communication between the sprinkler and the conduit. A bracket has an opening that receives the second adapter and a locking unit movably mounted on the bracket. The locking unit engages and retains the second adapter within the opening. Across beam is received by the bracket for securing the bracket in relation to the branch line.
In one example embodiment the assembly comprises the sprinkler.
In another example embodiment the second adapter portion comprises a tube attached to the first end of the conduit. The tube is received within the bore of the first adapter in the first adapter portion. A ring seal is positioned between an outer surface of the tube and an inner surface of the bore in the first adapter portion for effecting a fluid-tight connection between the first and second adapter portions. A split ring is positioned between the outer surface of the tube and the inner surface of the bore in the first adapter portion. The split ring has an inner portion sized to fit within an outwardly facing circumferential groove positioned in the outer surface of the tube. The split ring further has an outer portion sized to fit within an inwardly facing circumferential groove positioned in the inner surface of the bore in the first adapter portion. The split ring prevents relative axial movement between the first and second adapter portions but permits relative rotation between the first and second adapter portions about a longitudinal axis concentric with the bore of the first adapter.
By way of example, the first adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding the bore of the first adapter in the first adapter portion. The second adapter portion comprises a convex spherical surface surrounding the bore in the first adapter portion and positioned at one end thereof. An opposite end of the second adapter portion is attached to the first end of the conduit. The convex spherical surface fits within the concave spherical surface thereby permitting the first and second adapter portions to rotate relatively to one another. A retainer has a concave spherical surface. The retainer surrounds the convex spherical surface of the second adapter portion and is attached to the first adapter portion. The second adapter portion is captured between the retainer and the first adapter portion.
In another example embodiment a first seal is positioned between the second adapter portion and the retainer, and a second seal is positioned between the retainer and the first adapter portion. In a specific example, the retainer comprises a nut which threadedly engages the first adapter portion.
In a further example the second adapter has a third adapter portion attachable to the sprinkler and a fourth adapter portion attached to the second end of the conduit. The third and fourth adapter portions are rotatable relatively to one another. The third adapter portion is received within the bracket.
In another example the fourth adapter portion comprises a second tube attached to the second end of the conduit. The second tube is received within the bore of the second adapter in the third adapter portion. A ring seal is positioned between an outer surface of the second tube and an inner surface of the bore in the third adapter portion for effecting a fluid-tight connection between the third and fourth adapter portions. A split ring is positioned between the outer surface of the second tube and the inner surface of the bore of the third adapter portion. The split ring has an inner portion sized to fit within an outwardly facing circumferential groove positioned in the outer surface of the second tube. The split ring further has an outer portion sized to fit within an inwardly facing circumferential groove positioned in the inner surface of the bore in the third adapter portion. The split ring prevents relative axial movement between the third and fourth adapter portions but permits relative rotation between the third and fourth adapter portions about a longitudinal axis concentric with the bore of the second adapter.
In an example embodiment the third adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding the bore in the third adapter portion. The fourth adapter portion comprises a convex spherical surface surrounding the bore in the fourth adapter portion and positioned at one end thereof. An opposite end of the fourth adapter portion is attached to the second end of the conduit. The convex spherical surface of the fourth adapter portion fits within the concave spherical surface of the third adapter portion thereby permitting the third and fourth adapter portions to rotate relatively to one another. A second retainer has a concave spherical surface. The second retainer surrounds the convex spherical surface of the fourth adapter portion and is attached to the third adapter portion. The fourth adapter portion is captured between the second retainer and the third adapter portion.
A specific example embodiment further comprises a third seal positioned between the second retainer and the fourth adapter portion and a fourth seal positioned between the second retainer and the third adapter portion. In a particular example embodiment the second retainer comprises a nut which threadedly engages the third adapter portion.
By way of example the bracket comprises a plurality of sidewalls attached to one another in spaced relation to define a U-shaped opening. IN a particular example the locking unit comprises a wire bale pivotably attached to the bracket. In another example the locking unit comprises a finger pivotably attached to the bracket.
With reference again to the exploded view of
Adapter portions 68 and 70 are rotatable relatively to one another about a longitudinal axis 74 concentric with the bore 66. By allowing the adapter portions to rotate relatively to one another, application of torque to the conduit 16 about axis 74 is prevented, for example, when attaching the sprinkler 14 to the adapter, or when mounting the adapter onto a bracket or other support (see also
As shown in detail in
In the embodiment shown in
In another assembly embodiment, shown in
The embodiments provided herein show union joints by way of example, it being understood that other types of connections, such as fixed NPT sprinkler outlets, swivel sprinkler outlets as well as NPT adapters are also feasible for use with the assembly according to the invention.
The assembly for connecting a sprinkler to a branch line of a fire suppression system according to the invention will provide numerous advantages over the prior art. The assembly is easy to install on a branch line and provides great adjustability of the final position of the sprinkler, thereby simplifying design and installation tasks. It is much more difficult to over-torque the assembly due to the rotational freedom afforded by the rotatable adapter or the sleeve, resulting in a significantly decreased potential for damage upon installation or during a seismic event. Additionally, the assembly can be pressure loss tested as a unit (with or without the sprinkler installed) thereby providing the system designer one equivalent length number indicative of head loss instead of resorting to calculating the equivalent length as the sum of equivalent lengths for each component of the assembly. This should improve the accuracy of hydraulic calculations. Furthermore, the entire assembly, including the sprinkler head, may be K-factor tested which will provide a single, simplified K-factor number of increased accuracy, the K-factor being a constant of proportionality used to determine the flow rate of a nozzle as a function of the square root of the pressure at the nozzle.
While the example assembly embodiments disclosed herein are described in the context of a fire suppression system, it is understood that the descriptions are examples and that the assembly embodiments disclosed herein may also be used with other systems, such as hydronic systems, where a fluid is conveyed by a flexible conduit which it is desired to isolate from unwanted and potentially damaging applied torques.
Claims
1. An assembly for connecting a sprinkler to a branch line of a fire suppression system, said assembly comprising:
- a flexible conduit having a first end connectable to said branch line, and a second end connectable to said sprinkler, said conduit providing fluid communication between said branch line and said sprinkler;
- a first adapter positioned between said sprinkler and said second end of said conduit for effecting attachment of said sprinkler to said conduit, said first adapter having a bore providing fluid communication between said sprinkler and said conduit, said first adapter having a first adapter portion attachable to said sprinkler and a second adapter portion attached to said second end of said conduit, said first and second adapter portions being rotatable relatively to one another;
- a bracket having an opening receiving said first adapter portion and a locking unit movably mounted on said bracket, said locking unit engaging and retaining said first adapter portion within said opening;
- a cross beam received by said bracket for securing said bracket in relation to said branch line; and
- said second adapter portion comprises a tube attached to said second end of said conduit, said tube being received within said bore of said adapter in said first adapter portion;
- a ring seal is positioned between an outer surface of said tube and an inner surface of said bore in said first adapter portion for effecting a fluid-tight connection between said first and second adapter portions;
- a split ring is positioned between said outer surface of said tube and said inner surface of said bore in said first adapter portion, said split ring having an inner portion sized to fit within an outwardly facing circumferential groove positioned in said outer surface of said tube, said split ring further having an outer portion sized to fit within an inwardly facing circumferential groove positioned in said inner surface of said bore in said first adapter portion, said split ring preventing relative axial movement between said first and second adapter portions but permitting relative rotation between said first and second adapter portions about a longitudinal axis concentric with said bore.
2. The assembly according to claim 1, wherein:
- said first adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding said bore;
- said second adapter portion comprises a convex spherical surface surrounding said bore and positioned at one end thereof, an opposite end of said second adapter portion being attached to said second end of said conduit, said convex spherical surface fitting within said concave spherical surface thereby permitting said first and second adapter portions to rotate relatively to one another;
- a retainer having a concave spherical surface, said retainer surrounding said convex spherical surface of said second adapter portion and being attached to said first adapter portion, said second adapter portion being captured between said retainer and said first adapter portion.
3. The assembly according to claim 2, further comprising a first seal positioned between said second adapter portion and said retainer, and a second seal positioned between said retainer and said first adapter portion.
4. The assembly according to claim 2, wherein said retainer comprises a nut which threadedly engages said first adapter portion.
5. The assembly according to claim 1, further comprising said sprinkler.
6. The assembly according to claim 1, further comprising:
- a second adapter positioned between said branch line and said first end of said conduit for effecting attachment of said conduit to said branch line, said second adapter having a second bore providing fluid communication between said branch line and said conduit, said second adapter having a third adapter portion attachable to said branch line and a fourth adapter portion attached to said first end of said conduit, said third and fourth adapter portions being rotatable relatively to one another.
7. The assembly according to claim 6, wherein:
- said fourth adapter portion comprises a second tube attached to said first end of said conduit, said second tube being received within said bore of said second adapter in said third adapter portion;
- a ring seal is positioned between an outer surface of said second tube and an inner surface of said bore in said third adapter portion for effecting a fluid-tight connection between said third and fourth adapter portions;
- a split ring is positioned between said outer surface of said second tube and said inner surface of said bore in said third adapter portion, said split ring having an inner portion sized to fit within an outwardly facing circumferential groove positioned in said outer surface of said second tube, said split ring further having an outer portion sized to fit within an inwardly facing circumferential groove positioned in said inner surface of said bore in said third adapter portion, said split ring preventing relative axial movement between said third and fourth adapter portions but permitting relative rotation between said third and fourth adapter portions about a longitudinal axis concentric with said second bore.
8. The assembly according to claim 6, wherein:
- said third adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding said bore in said third adapter portion;
- said fourth adapter portion comprises a convex spherical surface surrounding said bore in said fourth adapter portion and positioned at one end thereof, an opposite end of said fourth adapter portion being attached to said first end of said conduit, said convex spherical surface of said fourth adapter portion fitting within said concave spherical surface of said third adapter portion thereby permitting said third and fourth adapter portions to rotate relatively to one another;
- a second retainer having a concave spherical surface, said second retainer surrounding said convex spherical surface of said fourth adapter portion and being attached to said third adapter portion, said fourth adapter portion being captured between said second retainer and said third adapter portion.
9. The assembly according to claim 8, further comprising a third seal positioned between said second retainer and said fourth adapter portion and a fourth seal positioned between said second retainer and said third adapter portion.
10. The assembly according to claim 8, wherein said second retainer comprises a nut which threadedly engages said third adapter portion.
11. The assembly according to claim 1, wherein said bracket comprises a plurality of sidewalls attached to one another in spaced relation to define a U-shaped opening.
12. The assembly according to claim 11, wherein said locking unit comprises a wire bale pivotably attached to said bracket.
13. The assembly according to claim 11, wherein said locking unit comprises a finger pivotably attached to said bracket.
14. An assembly for connecting a sprinkler to a branch line of a fire suppression system, said assembly comprising:
- a flexible conduit having a first end connectable to said branch line, and a second end connectable to said sprinkler, said conduit providing fluid communication between said branch line and said sprinkler;
- a first adapter having a first adapter portion attachable to said branch line and a second adapter portion attached to said first end of said conduit, said first and second adapter portions being rotatable relatively to one another, said first adapter having a bore providing fluid communication between said branch line and said conduit;
- a second adapter positioned between said sprinkler and said second end of said conduit for effecting attachment of said conduit to said sprinkler, said second adapter having a bore providing fluid communication between said sprinkler and said conduit;
- a bracket having an opening receiving said second adapter and a locking unit movably mounted on said bracket, said locking unit engaging and retaining said second adapter within said opening;
- a cross beam received by said bracket for securing said bracket in relation to said branch line; and
- said second adapter portion comprises a tube attached to said first end of said conduit, said tube being received within said bore of said first adapter in said first adapter portion;
- a ring seal is positioned between an outer surface of said tube and an inner surface of said bore in said first adapter portion for effecting a fluid-tight connection between said first and second adapter portions;
- a split ring is positioned between said outer surface of said tube and said inner surface of said bore in said first adapter portion, said split ring having an inner portion sized to fit within an outwardly facing circumferential groove positioned in said outer surface of said tube, said split ring further having an outer portion sized to fit within an inwardly facing circumferential groove positioned in said inner surface of said bore in said first adapter portion, said split ring preventing relative axial movement between said first and second adapter portions but permitting relative rotation between said first and second adapter portions about a longitudinal axis concentric with said bore of said first adapter.
15. The assembly according to claim 14, further comprising said sprinkler.
16. The assembly according to claim 14, wherein:
- said first adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding said bore of said first adapter in said first adapter portion;
- said second adapter portion comprises a convex spherical surface surrounding said bore in said first adapter portion and positioned at one end thereof, an opposite end of said second adapter portion being attached to said first end of said conduit, said convex spherical surface fitting within said concave spherical surface thereby permitting said first and second adapter portions to rotate relatively to one another;
- a retainer having a concave spherical surface, said retainer surrounding said convex spherical surface of said second adapter portion and being attached to said first adapter portion, said second adapter portion being captured between said retainer and said first adapter portion.
17. The assembly according to claim 16, further comprising a first seal positioned between said second adapter portion and said retainer, and a second seal positioned between said retainer and said first adapter portion.
18. The assembly according to claim 16, wherein said retainer comprises a nut which threadedly engages said first adapter portion.
19. The assembly according to claim 14, wherein said second adapter has a third adapter portion attachable to said sprinkler and a fourth adapter portion attached to said second end of said conduit, said third and fourth adapter portions being rotatable relatively to one another, said third adapter portion being received within said bracket.
20. The assembly according to claim 19, wherein:
- said fourth adapter portion comprises a second tube attached to said second end of said conduit, said second tube being received within said bore of said second adapter in said third adapter portion;
- a ring seal is positioned between an outer surface of said second tube and an inner surface of said bore in said third adapter portion for effecting a fluid-tight connection between said third and fourth adapter portions;
- a split ring is positioned between said outer surface of said second tube and said inner surface of said bore of said third adapter portion, said split ring having an inner portion sized to fit within an outwardly facing circumferential groove positioned in said outer surface of said second tube, said split ring further having an outer portion sized to fit within an inwardly facing circumferential groove positioned in said inner surface of said bore in said third adapter portion, said split ring preventing relative axial movement between said third and fourth adapter portions but permitting relative rotation between said third and fourth adapter portions about a longitudinal axis concentric with said bore of said second adapter.
21. The assembly according to claim 14, wherein:
- said third adapter portion comprises a concave spherical surface positioned at an end thereof and surrounding said bore in said third adapter portion;
- said fourth adapter portion comprises a convex spherical surface surrounding said bore in said fourth adapter portion and positioned at one end thereof, an opposite end of said fourth adapter portion being attached to said second end of said conduit, said convex spherical surface of said fourth adapter portion fitting within said concave spherical surface of said third adapter portion thereby permitting said third and fourth adapter portions to rotate relatively to one another;
- a second retainer having a concave spherical surface, said second retainer surrounding said convex spherical surface of said fourth adapter portion and being attached to said third adapter portion, said fourth adapter portion being captured between said second retainer and said third adapter portion.
22. The assembly according to claim 21, further comprising a third seal positioned between said second retainer and said fourth adapter portion and a fourth seal positioned between said second retainer and said third adapter portion.
23. The assembly according to claim 21, wherein said second retainer comprises a nut which threadedly engages said third adapter portion.
24. The assembly according to claim 14, wherein said bracket comprises a plurality of sidewalls attached to one another in spaced relation to define a U-shaped opening.
25. The assembly according to claim 14, wherein said locking unit comprises a wire bale pivotably attached to said bracket.
26. The assembly according to claim 14, wherein said locking unit comprises a finger pivotably attached to said bracket.
27. A sprinkler assembly attachable to a pressurized source of a fire suppressing fluid, said sprinkler assembly comprising:
- a sprinkler for discharging said fire suppressing fluid; p1 a flexible conduit having a first end attachable to said source of fire suppressing liquid and a second end connected to said sprinkler; wherein
- said fire suppressing liquid is discharged from said discharge opening at a flow rate defined by a simpli-fied K-factor number which includes pressure losses from said flexible conduit and said sprinkler head, said simplified K-factor number defined as a ratio of said flow rate divided by a square root of a fluid pressure at said discharge opening.
28. The sprinkler assembly according to claim 27, further comprising an adapter positioned between said sprinkler and said second end of said conduit and connecting said sprinkler thereto, said adapter having a lore providing fluid communication between said sprinkler and said conduit.
29. The sprinkler assembly according to claim 27, wherein said flexible conduit comprises a corrugated hose.
30. The assembly according to claim 26, wherein said locking unit further comprises a pivoting wingnut assembly positioned at an end of said finger to affix set assembly to said cross beam.
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Type: Grant
Filed: Nov 24, 2020
Date of Patent: Aug 8, 2023
Assignee: Victaulic Company (Easton, PA)
Inventors: John M. Stempo (Bethlehem, PA), Rudolf Szentimrey (Nazareth, PA), Lawrence W. Thau, Jr. (Flemington, NJ)
Primary Examiner: Joseph A Kaufman
Application Number: 17/102,489
International Classification: A62C 35/68 (20060101); F16L 27/08 (20060101); F16L 27/047 (20060101); E04B 9/06 (20060101); F16L 3/16 (20060101); F16L 37/088 (20060101);