Support system for maritime or other use

Disclosed herein are improved support systems for electrical cabling, piping, and the like for fast-on, fast-off, non-twist connection to spaced studs projecting from a support wall, bulkhead, etc. Three embodiments are disclosed, one of which uses coupling nuts having on one end an internally threaded bore to mate with threads on the stud, and on the other end, an integral stud extension having external reverse threads which mate with a threaded socket member secured to a clamp assembly. Other embodiments utilize means for rigidly securing the cabling, piping, or the like to spaced studs supported from a support member. A unique means is also disclosed for clamping the material, such as cabling, piping, or the like, in place.

DESCRIPTION 
1. Technical Field 
This invention relates to hanger assemblies for supporting electrical or 
communication cables, piping, etc., at spaced locations along their 
lengths, particularly for supporting such in ships, underground utility 
trenches, buildings, etc. 
2. Background Art 
Hanger assemblies, particularly those employed in the ship building 
industry, must meet certain rigid specifications, including (1) sufficient 
flexural strength to support the piping or cabling carried by the 
assemblies, (2) quick and economical assembly of the hanger assemblies, 
and (3) quick and easy disassembly of the assemblies when repairs or 
replacement must be made. 
Numerous patents disclose various types of hanger assemblies for many 
different uses. U.S. Pat. No. 3,575,367 discloses a hollow standoff hanger 
assembly secured over a projecting stud, the standoff secured in a number 
of different ways. U.S. Pat. No. 1,462,187 discloses an adjustable flange 
adapted to be secured adjacent a ceiling or wall from which a rod or bolt 
extends for supporting purposes. U.S. Pat. Nos. 4,013,253; 4,032,096; and 
4,039,131 disclose bracket supports for supporting electrical cabling in 
the electrical systems of ships, underground utility trenches, etc. U.S. 
Pat. No. 3,966,154 discloses a cable hanger utilizing an adjustable strap 
to support cabling. U.S. Pat. Nos. 3,066,903; 2,166,916; 3,198,463; 
3,523,668; 3,353,775; 3,980,263; 3,942,750; 4,078,752; 3,034,753; 
1,457,106; and 3,923,277 also disclose various kinds of hangers for 
cabling, piping, and the like. 
DISCLOSURE OF INVENTION 
The present provides an improved support system for electrical cabling, 
piping, or the like for use in the ship building industry or elsewhere 
which can be quickly and economically connected or disconnected to spaced 
studs projecting from a support wall member, bulkhead, etc. One embodiment 
of the invention employs coupling nuts having an internally threaded bore 
at one end to mate with threads on the stud, and, at the other end, an 
integral stud extension having reverse threads from the internally 
threaded bore portion which mate with a threaded socket secured to a 
unique hanger/clamp member for clamping the cabling, piping, or the like. 
A second embodiment utilizes an elongated hollow annular member which fits 
over the stud and is secured to the stud securely, yet is removable when 
necessary. A third embodiment utilizes a hollow annular member having a 
resilient finger projecting into the interior thereof. The annular member 
is fitted over a stud having a groove therein into which the finger 
projects to hold the member in place.

BEST MODE FOR CARRYING OUT THE INVENTION 
The improved systems described in this application eliminate the 
traditional requirement that the cables, piping, etc., must be removed 
from the hanger assembly before the hanger assembly may be threaded onto, 
or off of, spaced studs secured to a bulkhead or support member. The 
systems described eliminate the twisting requirement so that the cables, 
piping, etc., are maintained in their captured configuration in the hanger 
body even when the hanger is temporarily removed from the spaced studs. 
These benefits result in a considerable reduction in both assembly time 
and materials cost for not only the initial installation but for all 
subsequent removal and replacement cycles. 
Referring to FIG. 1, threaded studs 10 are welded at spaced intervals to a 
supporting member 12, such as a bulkhead or a side or top wall of a 
utility trench, building, or the like. Cabling 14 or other items to be 
supported from the supporting member 12 is placed between the bendable 
legs of a saddle 16, to which is secured an integral socket 18 having an 
internally threaded bore. 
The socket 18 and saddle clamp 16 are secured to the projecting studs 10 by 
respective coupling nuts 20. Each coupling nut has an internally threaded 
bore portion whose threads mate with the threads on the stud 10, and an 
integral, externally threaded stud extension 20a having reverse threads 
from those of the internal bore of the coupling nut 20. Sufficient space 
26 is left between the top of the internally threaded bore portion and the 
start of the threads 28 to align the coupling nut with the threads of the 
stud 10 to enable it to be easily threaded onto the stud. In the same 
manner, sufficient space 24 is left between the top of the socket 18 and 
the beginning of the internal threads 22 of the socket to provide 
alignment of the threads of the socket with those of the stud extension 
20a of the coupling nut for fast and easy securement thereto. 
The exterior of the internally threaded bore portion of the coupling nut 20 
may be in the form of a hexagon or other configuration to allow fast and 
easy removal with the fingers or with suitable tools. 
A second embodiment of a hanger assembly is shown in FIG. 2. An annular 
grooved stud 30 is welded or otherwise secured to a bulkhead or support 
member 32. The stud includes a groove 34 near the upper end thereof. A 
hanger includes saddle clamp 36 having bendable legs 38 secured to an 
annular hollow member 40 at one end, the member having an internal 
diameter to allow it to fit closely over the stud 30. The sidewall of the 
member 40 includes an integral resilient finger 42, one end of which 
projects into the interior of the member 40. When the member 40 is pressed 
over the stud 30, the resilient finger 42 catches in the groove 34 formed 
near the upper end of the stud 40 to retain the member 40 and saddle clamp 
36 in place. An annular retaining ring 44 surrounding the hollow member 40 
is pushed over the resilient finger 42 to retain the free end of the 
finger in place in the groove 34 of the stud 30 so that force exerted on 
the member 40 and saddle clamp 36 will not disengage the finger 42 from 
the groove. 
The third embodiment is illustrated by FIG. 3. In this embodiment, stud 50, 
projecting from a bulkhead or support member includes a groove 52 therein 
near its free end. A hanger includes an elongated hollow member 54 having 
an internal diameter adapted to closely fit over the stud 50 with slots 56 
therein on one or both sides, as illustrated. The hollow member 54 is 
connected at one end to a saddle clamp 58 having bendable legs 60 for 
securing around cabling, piping, or the like. Cabling or piping is 
supported from the support by the clamp 58 by slipping the hollow member 
54 over the stud 50 until the slots 56 in the hollow member match with the 
grooves 52 in the stud. A forked retaining clip 62 is then forced into 
place, as illustrated, to retain the member 54 in place over the stud 50. 
The retaining clip 62 may be removed when necessary for disassembly. 
The three embodiments disclosed provide a fast-on, fast-off, non-twist 
support method for cabling and piping systems. These embodiments provide 
sufficient flexural strength to support piping or cabling carried by the 
assemblies. 
FIG. 4 illustrates a means for strapping cabling or other material to an 
elongated, hollow plate 70 having an upstanding, internally threaded 
socket 72 which is threaded onto the stud extension 20a of the coupling 
nuts previously described with respect to FIG. 1. The plate 70 has a 
hollow interior through which is run flexible strapping material 74, 
generally thin metal bands. Referring to FIG. 5, one end of the band 74 
extends through the base of a buckle 76, is looped back underneath the 
buckle, and is welded to the band as illustrated at point 78. The free end 
74a of the band is then looped around the cabling or other material 82 to 
be retained, extended through the loop 80 of the buckle as illustrated, 
thence back on itself and retained by flattening the upstanding ears 84 
against the strap 74 and buckle 76. The free end of the strap is then cut. 
Use of this buckle and strapping technique saves a considerable amount of 
time in initially installing cabling, piping, or other materials. 
If desired, the hangars illustrated in FIGS. 1-3 can be formed from tubular 
material as an integral unit with the saddle portion of the hangar 
flattened.