Flat cable clamp

A clamp for holding one or more generally elongate objects each having opposed generally flat first and second sides, such as flat cables, in parallel stacked relationship. The clamp includes a base extending transversely of the longitudinal direction of the objects and has a surface for engagement with a first side of one of the objects. A cover which also extends transversely of the objects is connected to the base and spaced from the base surface. Finally, the clamp includes resilient pusher means extending from the cover toward the base for engaging a second object side. The pusher means includes a flap extending outwardly from a cover side so that no portion of the flap underlies the cover.

BACKGROUND OF THE INVENTION 
This invention relates to cable clamps and more particularly to a clamp for 
firmly holding one or more flat cables. 
Flat flexible cables, for example, of the type wherein an array of 
parallel, regularly spaced, coplanar conductors are sandwiched between an 
upper and lower sheet of insulation have come into rapidly growing use. 
Such cables are ideally suited for use in electronic computer systems for 
interconnecting a series of electrical devices at a first location to a 
corresponding series of devices at a second location. In the past flat 
cables were generally mounted on a support such as a panelboard by the use 
of a metal plate having a resilient insulator for engaging the flat cable. 
The plate was screwed down to the support with the cable positioned 
between the insulator and the support. It was common that the plate was 
insufficiently tightened so that the cables were free to move in their 
longitudinal direction or that the plate was overly tightened causing 
permanent deformation of the cable. 
More recently flat cable mounts having a elongate base and a separate 
elongate cover have been suggested. The cover and base are encircled by a 
cable tie, having a toothed strap joined to a locking head for receiving 
the free end of the strap, or toothed strap portions are formed integrally 
with the base for reception by locking head portions formed integrally 
with the cover. Since the locking head can hold the strap at a number of 
locations these mounts are excellent where it is required to hold the 
cables at a predetermined tension. However, as these mounts include two or 
more loose parts and since care is required to align the strap with 
thelocking head, both hands are needed to install the mounts. 
Additionally, user judgment is required due to the adjustability of the 
mounts. Reference may be made to commonly assigned U.S. Pat. No. 
3,971,105. 
In another type of flat cable clamp the cover and base are joined at first 
ends by a hinge and have interlocking components at their second ends. The 
cover is elevated relative to the base a distance corresponding to the 
height of the maximum number of flat cables to be held. Of course, if the 
clamp is used with a lesser number of cables, the cables are only loosely 
held and they might be able to slide in their longitudinal direction. 
Resilient spaces are available which must be adhered to the base. 
SUMMARY OF THE INVENTION 
Among the several objects of the present invention may be noted the 
provision of an improved clamp for mounting one or more flat cables to a 
support and for forming a plurality of such cables into a bundle; the 
provision of such clamp which securely compressively holds from one up to 
a predetermined maximum number of cables without the use of spacers; the 
provision of such clamp which is securely assembled using only one hand; 
the provision of such clamp which is one-piece construction, which is 
light in weight and which is simple ad economical to manufacture. Other 
objects and features will be in part apparent and in part pointed out 
hereinafter. 
Briefly, the clamp of the present invention comprises a base, a cover 
connectable to the base, and resilient pusher means integral with the 
cover and formed of the same material as the cover. The base extends 
across the cable route and has a surface for engaging a first object side. 
The cover includes a bridge portion also extending across the cable route 
and spaced a predetermined distance from the base surface. The pusher 
means extends from the cover toward the base surface and is adapted to 
engage a second object side independent of the number of objects to be 
held from one to a perdetermined maximum number.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to FIGS. 1 and 2, a clamp for use with one or more elongate 
objects of the type having opposed generally flat first and second sides, 
such as the flat cable 20 shown in FIG. 5, is generally indicated by 
reference numeral 22. More specifically, clamp 22 is useful for mounting 
from one up to a maximum predetermined number of objects along a 
predetermined route on a support such as a panelboard and for holding a 
plurality of the objects in parallel stacked relationship. 
Clamp 22 is preferably of one-piece molded thermoplastic construction and 
comprises a base 24 which, in use, extends transversely of the route of 
objects 20. Base 24 has a surface 26 lying in a first plane for engaging a 
first object side and ledges 28, 30 are disposed at the respective first 
and second ends of the base. The clamp also comprises a cover 32 
connectable to base 24 including a bridge portion 34 which, in use, 
extends transversely of said route, overlying base surface 26 and spaced 
therefrom a predetermined distance corresponding to the cummulative height 
of the maximum number of flat cables to be held. 
First ends of cover 32 and base 24 are joined by a hinge 36 while their 
second ends comprise latch means for locking the cover to the base. As 
best shown in FIG. 2 in the as-molded condition of the clamp, cover 32 
extends away from base 24 and the cover is locked to the base by rotating 
the cover about the hinge through a predetermined number of degrees. Hinge 
36, in the as-molded condition of the clamp, includes a pair of adjacent 
grooves 38 each of which is defined by a pair of surfaces converging at an 
angle with the sum of the angles corresponding to each groove 
substantially equalling the predetermined number of degrees whereby the 
grooves close as the cover is rotated to lock it to the base causing the 
hinge to form a generally solid mass. More specifically, as shown in FIG. 
2 the cover extends away from the base at 180 degrees while the surfaces 
defining each identical groove 38 intersect at a 90 degree angle. 
The latch means comprises a catch 40 on base 24 extending outwardly from 
ledge 30 and further includes a frame 42 on the cover extending generally 
perpendicularly from adjacent the bridge portion for holding the catch. 
Catch 40 includes a bottom abutment surface 44, side abutment surfaces 46 
and a ramp surface 48 for deflecting frame 42 outwardly over the catch as 
the cover is closed. Frame 42 comprises, as best shown in FIG. 4, a bottom 
wall 50 for engaging surface 44 and side walls 52 for engaging surfaces 46 
with the walls defining a socket 54 for receiving catch 40. Bottom wall 50 
functions to prevent cover 32 from rotating about hinge 36 while side 
walls 52 restrict movement of the cover in the longitudinal direction of 
the flat cables. The latch means further includes guide means, for 
aligning the frame and catch as the cover is closed, in the form of 
protuberances 56 straddling catch 40 and including converging guide 
surfaces 58 for engaging side walls 52. Finally, the latching means 
includes a release lever 60 extending outwardly from frame 42 for 
deflecting the frame away from the catch. 
Clamp 22 also includes resilient pusher means extending from cover 32 
toward base surface 26 for compressively holding flat cables 20 against 
base surface 26. The pusher means comprises a pair of spaced skirts or 
flaps 62 disposed intermediate the ends of cover 32 and diverging as they 
extend from bridge portion 34 toward base surface 26. The distal ends 64 
of flaps 62 are arcuate to present a generally smooth surface for engaging 
a second or upper surface of one of flat cables 20. The flaps have an 
unloaded position, shown in FIG. 6, wherein cover 32 is latched to base 24 
without any objects disposed between bridge portion 34 and base surface 26 
and wherein the part of flap distal end 64 closest base surface 26 lies in 
a plane parallel to the plane of the base surface and spaced therefrom a 
distance less than the thickness of one flat cable. Flaps 62 are 
deflectable from their unloaded position to a maximum loaded position, 
shown in FIG. 7, in which the cover is connected to base 24 with the 
maximum predetermined number of flat cables positioned between the bridge 
portion and the base surface. More particularly, flaps 62 engage base 
surface 26 in their unloaded position and extend generally parallel to the 
base surface in their maximum load positions. Although FIG. 7 only shows 
two stacked cables, it will be appreciated that ledges 28 and 30 can be 
extended to form a clamp able to accomodate a large number of stacked 
cables. 
It will be appreciated that the present invention offers several advantages 
over prior art structures used for holding flat cables. The present 
invention is of one-piece construction so that it can conveniently be 
closed about the flat cables using only one hand. Additionally, the clamp 
is extremely versatile as it can hold any number of flat cables from one 
up to the maximum number firmly against the base surface without the use 
of sponge spacers or other foreign filler material. 
The base surface 26 can be provided with spaced elongate grooves 66 to more 
securely engage the flat cable to prevent its movement in its longitudinal 
direction. Also cover 32 preferably has a reinforcing rib 68 extending 
intermediate the cover ends for stiffening bridge portion 34. 
Operation of clamp 22 of the present invention is as follows: After base 24 
is secured to the support either by using fasteners received by apertures 
70 or by the use of adhesives, the cable or cables to be held are stacked 
on base surface 26 and between ledges 28 and 30. As cover 32 is rotated 
about hinge 36, flap ends 64 engage the top flat cable surface and 
compresses the held cables against the base. Due to the resiliency of the 
plastic material from which the mount is formed and the thinness of flaps 
62, continued rotation of the cover toward the base results in spreading 
of the flaps which in turn causes increasing compressive forces to be 
applied to the flat cables. Of course, by varying the angle at which the 
flaps are molded a particular compressive force can be achieved for a 
given stack height. As closure of the clamp continues, guides 56 move the 
frame 42 into alignment with catch 40 and the catch ramp surface 48 causes 
the outward reflection of the frame. When bottom wall 50 clears ramp 
surface 48, frame 42 is biased to return to its vertical position wherein 
socket 54 receives catch 40. If it is later desired to add or remove 
cables, clamp 22 can be conveniently opened by using release lever 60 to 
deflect frame 42 outwardly from the catch. 
It should be appreciated that the latch means can function effectively even 
if the clamp is overloaded or used to hold a non-flat object which would 
result in bowing of the cover. With such bowing, the frame 42 would assume 
an inward cant. However, as the catch extends outwardly from ledge 30, an 
inward cant would cause bottom wall 50 to remain in effective engagement 
with abutment surface 44. If catch 40 extended inwardly, such inclination 
of the frame would result in wall 50 moving away from abutment surface 44 
resulting in opening of the clamp. 
In view of the above, it will be seen that the several objects of the 
invention are achieved and other advantageous results attained. 
As various changes could be made in the above constructions without 
departing from the scope of the invention, it is intended that all matter 
contained in the above descriptions shall be interpreted as illustrative 
and not in a limiting sense.