Sprinkler Deflector

Technical Field

This invention relates to fire prevention sprinklers for distributing liquid in an environment which is sub¬ ject to a fire hazard.

Most conventional fire suppression sprinklers con¬ sist of a threaded sprinkler body connected to a liquid supply pipe to receive fire extinguishing liquid such as water and having a heat responsive valve blocking a pas¬ sage in the sprinkler body which is set to open the valve passage when the temperature in the vicinity of the sprinkler exceeds a selected value. In order to distrib¬ ute the water emerging from the sprinkler passage throughout the area to be protected, the sprinkler in¬ cludes a deflector supported from the sprinkler body usu¬ ally by a frame consisting of two arms projecting beyond the sprinkler passage on opposite sides of the path of emerging water. Alternatively, the deflector may be sup- ported from the sprinkler body by sliding pins rather than fixed arms, allowing the deflector to be optimally positioned automatically and concurrently with the opera¬ tion of the sprinkler, as is required with certain types of concealed sprinklers. In many cases, the sprinkler deflector consists of a substantially planar disk positioned perpendicular to the sprinkler passage which distributes impinging water radi¬ ally in the direction parallel to the plane of the disk and formed with radial slots which permit a portion of the impinging water to pass through the disk, i.e., down¬ wardly toward the floor of the protected area when the sprinkler is of the pendent type suspended from a ceil¬ ing. The water distribution provided by such deflectors, however, has certain shortcomings. In the first place,

the arms of the frame which extend from the sprinkler body to support the deflector interfere with distribution of water in the radial direction beyond those arms. Fur¬ thermore, the area of the protected environment through- out which the water is distributed as a result of radial distribution by the deflector is limited because the ra¬ dially distributed water commences falling downwardly immediately upon leaving the deflector.

Attempts have been made to control the water distri- bution provided by a sprinkler deflector in various ways. The Mohler Patent No. 3,918,645, for example, discloses a planar deflector having peripheral tines extending per¬ pendicularly from the deflector surface toward the sprin¬ kler passage to generate a fine vapor cloud, and in the regions adjacent to the sprinkler frame supporting the deflector, the tines are shaped to direct the dispersed cloud of water vapor around the frame arms which support the deflector toward the region radially outward of the frame arms. The dispersion of water into fine particles produced by this deflector arrangement, however, may re¬ duce the area to which the water is distributed because of air resistance encountered by the fine drops of water. The Loepsinger Patent No. 2,025,063 discloses an up¬ right sprinkler with a deflector having downwardly curved side portions consisting of spaced tongues arranged in the form of a square to distribute water over a substan¬ tially square area. The patent to Glinecke No. 4,280,562 discloses a pendent sprinkler having a flat planar disk supported from a sprinkler body by a frame and a sur- rounding ring of radially extending blades which are twisted at their root ends and bent at their free ends to cause impinging water to be separated into large droplets and distributed circumferentially. The hitaker Patent No. 4,585,069 discloses a sprinkler nozzle with a deflec- tor having an elongated central apex portion of arcuate configuration and side portions diverging from opposite sides of the apex, each side portion having tines along

the terminal edges to distribute water in a relatively narrow elongated spray pattern.

Disclosure of the Invention

Accordingly, it is an object of the present inven- tion to provide a sprinkler arrangement which overcomes the disadvantages of the prior art.

Another object of the invention is to provide a sprinkler arrangement which produces increased and uni¬ form distribution of liquid emerging from a sprinkler body.

These and other objects of the invention are at¬ tained by providing a sprinkler having a deflector sup¬ ported from the sprinkler body by spaced frame arms in which the deflector has a plurality of projecting tines with the ends of adjacent pairs of tines inclined in op¬ posite directions with respect to a plane perpendicular to axis of the sprinkler body. In one embodiment the sprinkler is a pendent sprinkler having a deflector with one pair of tines which are aligned with the plane of the sprinkler support arms on opposite sides of the sprinkler axis, each tine having an end portion which is displaced from the central plane of the deflector in the direction away from the sprinkler body and other pairs of adjacent tines disposed on opposite sides of the plane of the sup- port arms in which each of the adjacent tines have their ends inclined respectively away from and toward the plane of the sprinkler frame arms. Moreover, with a pendent sprinkler, at least one of the tines in each of those pairs also has its end portion inclined toward the sprin- kler body to cause impinging liquid to be deflected in the direction toward the sprinkler body as well as lat¬ erally with respect to the plane of the sprinkler frame arms, causing liquid to be deflected upwardly, thereby enlarging the area protected by the sprinkler.

Brief Description of Drawings

Further objects and advantages of the invention will be apparent from a reading of the following description in conjunction with the accompanying drawings, in which: Fig. 1 is a side view, partially in section, illus¬ trating a representative embodiment of a sprinkler ar¬ ranged in accordance with the invention;

Fig. 2 is a plan view of the deflector shown in the embodiment of the invention illustrated in Fig. 1; Fig. 3 is an enlarged fragmentary side view showing one quadrant of the deflector shown in Figs. 1 and 2;

Fig. 4 is a fragmentary side view showing the incli¬ nation of one tine of the deflector illustrated in Fig. 2, taken on the line IV-IV of Fig. 2 and looking in the direction of the arrows;

Fig. 5 is a fragmentary side view showing the incli¬ nation and displacement of one tine of the deflector il¬ lustrated in Fig. 2, taken on the line V-V of Fig. 2 and looking in the direction of the arrows; Fig. 6 is a fragmentary side view showing the incli¬ nation of one tine of the deflector illustrated in Fig. 2, taken on the line VI-VI of Fig. 2 and looking in the direction of the arrows;

Fig. 7 is a fragmentary side view showing the incli- nation and displacement of one tine of the deflector il¬ lustrated in Fig. 2, taken on the line VII-VII of Fig. 2 and looking in the direction of the arrows; and

Fig. 8 is a cross-sectional view of the deflector shown in Fig. 2 taken on the line VIII-VIII and looking in the direction of the arrows.

Best Mode for Carrying Out the Invention

In the typical embodiment of the invention illus¬ trated in Fig. 1, a pendent sprinkler 10 has a body which has a threaded end 11 adapted to be connected to a pipe to supply water or other fire extinguishing fluid and is

formed in the usual manner with a central passage (not visible in Fig. 1) . At its other end the sprinkler in¬ cludes a frame 12 consisting of two spaced arms 13 and 14 which are joined in a boss 15 at the end remote from the sprinkler body to support a deflector 16. A thermally responsive element 17, such as a conventional glass bulb containing heat expandable liquid or a conventional fus¬ ible solder element, is urged against a plug 18, which normally closes the liquid passage in the valve sprinkler body, by the end 19 of a screw 20 which extends through the boss 15 in the usual manner.

The sprinkler 10 is arranged to be mounted in an opening in a ceiling plate 21 and, in the illustrated embodiment, a cup-shaped cover support 22 is mounted on the neck 23 of the sprinkler body and is formed with a thread 24 in a circumferentially depending portion 25. A generally hemispherical cover member 27 is joined by sol¬ der joints 28 to depending tabs 29 of a sleeve 30 which is received within the depending portion 25 and has a plurality of helically arranged projections 31 located and shaped to engage the thread 24 of the peripheral de¬ pending portion 25 of the cup-shaped member 22, thereby permitting the cover 27 to be adjustably mounted with re¬ spect to the sprinkler by rotation of the sleeve 30 with- in the cup portion 25. A leaf spring 33 engages a cir¬ cumferential shoulder 34 on the sleeve 30 and has a plu¬ rality of spring fingers 35 urging the rim of the cover 27 away from the sleeve member 30 as described, for exam¬ ple, in the Leininger et al. Patent No. 4,880,063. In addition, the sleeve 30 is formed with longitudinally ex¬ tending slots 36 separating the sleeve into a plurality of segments which are resiliently biased toward the sur¬ rounding portion 25, permitting the sleeve to be moved axially into position within the cup-shaped member 22, if desired.

The cover member 27 may have truncated conical shape rather than a hemispherical shape or, if the deflector is

supported on sliding pins, a flat cover member may be used. Alternatively, the cover member 10 may be omitted and the sleeve 30 and cover support 22 may be replaced by an escutcheon in which the sprinkler 10 is mounted in a recessed position with the deflector 16 located below the bottom surface of the ceiling plate 21.

When the ambient temperature exceeds a predetermined level, the solder joints 28 fuse, permitting the spring fingers 35 to force the cover away from the sleeve 30 and, when the temperature exceeds the actuation tempera¬ ture of the temperature responsive element 17, the glass bulb is fragmented, or if a solder element is provided the solder is fused, releasing the plug 18 and permitting liquid to pass through the axial opening in the sprinkler body and impinge the deflector 16. Because the arms 13 and 14 of the frame which supports the deflector 16 in¬ terfere with the passage of water toward the deflector and therefore reduce the liquid available for distribu¬ tion along the plane of the deflector arms 13 and 14, the distribution of the impinging water must be modified to compensate for the reduction in water applied to the de¬ flector 16 in the plane of the support arms 13 and 14.

For this purpose, as shown in Fig. 2, the deflector 16 has a periphery formed with a series of substantially radial slots of different lengths 39 and 40 separating the peripheral part of the deflector into an array of spaced tines 41-47. All of the tines are joined to a central portion 50 of the deflector along a dashed line 51, the central portion 50 lying in a plane perpendicular to the axis of the sprinkler body. Since the construc¬ tion and arrangement of the sets of tines on opposite sides of the plane of the arms 13 and 14 is identical, both sets have the same reference numerals and only one set will be described in detail. Moreover, the tine ar- rangements on the opposite sides of the plane perpendicu¬ lar to that plane are mirror images of each other. Ac¬ cordingly, only the tines 41-44 appearing in the lower

right quadrant of the deflector as seen in Fig. 2 are shown in the enlarged side view in Fig. 3 to illustrate the tine configuration provided in each of the four quad¬ rants, the lower left and upper right quadrants being mirror images, respectively, of the lower right and upper left quadrants of Fig. 2. As best seen in Fig. 3, the set of tines in each of these quadrants includes a tine 44 extending perpendicularly to the plane of the frame arms 13 and 14 and lying in the same plane as the central portion 50 of the deflector, the plane of the bottom sur¬ face of the central portion being represented by the line 52 in the drawings.

Each of the tines 41-43, 46 and 47 is bent along the dashed line 51 shown in Fig. 2 away from the lower plane of the central portion 50 of the deflector which is rep¬ resented in Figs. 3-8 by a line 52. As shown in Figs. 3 and 6, the outer end of the tine 43 is bent upwardly with respect to the plane 52 by a distance A and inclined with respect to that plane toward the plane of the frame arms 13 and 14 by an angle α whereas the outer end of the tine 42 has one edge abutting the plane 52 and is inclined upwardly at an angle β away from the plane of the frame arms 13 and 14. As shown in Fig. 4, the outer end of the tine 47 has one edge abutting the plane 52 and is also inclined at an angle β away from the plane of the frame arms while, as illustrated in Fig. 5, the outer end of the tine 46 has one edge spaced upwardly by a distance A from the plane 52 and is inclined at an angle a toward the plane of the frame arms 13 and 14. As best seen in Fig. 2 the tines 41 which intersect the plane of the frame arms 13 and 14 are approximately twice as wide as the other tines, each including an angle of approximately 45°. Moreover, as shown in Fig. 8, the tines 41 are bent downwardly from the central region 50 of the deflector along the line 51 and are then bent up¬ wardly by a small angle γ with respect to the plane 52 along a line 53, providing an overall distance B between

the upper surface of the central portion 50 of the de¬ flector and the lower portion of the tines 41.

Fig. 8 also illustrates the overall diameter C of the deflector, the dimension D between the lower bend line 53 of the opposite tines 41, the dimension E between the upper bend line 52 of those tines, and the diameter F of the mounting hole 55 by which the deflector is secured to the boss 15 as shown in Fig. 1. Table 1 below sets forth the values for the dimensions and angles shown in Figs. 4-8 for a representative embodiment of the inven¬ tion, as well as suitable ranges for those values in de¬ flectors having a thickness of about 0.05 inch (1.27mm) intended for use in the present invention:

TABLE 1 Dimension Value Range

A 0.011 inch (0.28mm) 0.0-0.04 inch (0-1.0mm)

B 0.095 inch (2.41mm) 0.08-0.15 inch (2.0-3.8mm)

C 1.056 inch (26.83mm) 0.8-1.3 inch (20.3-33.0mm)

D 0.782 inch (19.86mm) 0.5-1.0 inch (12.7-25.4mm) E 0.565 inch (14.37mm) 0.35-0.8 inch (8.9-20.3mm)

F 0.33 inch (8.38mm) 0.2-0.4 inch (5.1-10.2mm) α 8.5° 2-15° β 6° 2-15° γ 2.5° 0.5-8°

Using a deflector arrangement in accordance with the invention in which tines adjacent to the plane of the sprinkler frame arms have ends which are alternately in¬ clined toward and away from that plane in the upward di¬ rection from the central portion of the deflector, fire extinguishing liquid is distributed more uniformly and over a larger area of a region to be protected than with a conventional planar deflector. Moreover, the provision

of larger tines intersecting the plane of the sprinkler frame arms having outer ends which extend below the plane of the central portion of the deflector and are inclined slightly upwardly with respect to that plane also facili- tates uniformity and an enlarged distribution area for liquid from the sprinkler by compensating for the shadow effect of the arms interfering wit the water distribu¬ tion.

Although the invention has been described herein with reference to specific embodiments many modifications and variations therein will readily occur to those skilled in the art. Accordingly, all such variations and modifications are included within the intended scope of the invention.