Fast acting vice

The specification discloses a vice jaw 22 mounted in a vice housing 28. The jaw 22 includes a slidearm 44 for sliding within a slideway 46 in the vice housing. A plurality of jaw teeth are formed on the underside of the slidearm 44 and engage one or more housing teeth 50 to operate in a ratchet action. A spring 54 continuously urges the jaw 22 towards a closed or retracted position. When an object is placed in the jaw 22, the jaw teeth 48 and the housing teeth 50 are engaged and will prevent the jaw 22 from moving toward the extended position, but will allow the jaw 22 to move toward the retracted position.

FIELD OF INVENTION 
The present invention relates to fast acting vices for clamping and holding 
objects, and particularly relates to a fast acting ladder vice having a 
jaw selectively operable in a ratchet action. 
BACKGROUND OF INVENTION 
In the construction industry, and particularly in the electrical 
construction industry, there is a frequent need to cut conduit. This cut 
is usually performed with a hacksaw. The electrician on the job site must 
hold the conduit pipe in one hand and saw it with the other hand. If the 
electrician allows the pipe to roll, the hacksaw blade will jump out of 
the saw groove causing a slight delay. If the pipe twists laterally in the 
hand of the electrician, the hacksaw blade will bind, and often it will 
bind and break. A common technique of the electrician is to use their 
thumb placed longitudinally on the pipe to prevent the pipe from twisting. 
Usually this technique results in sore thumbs and broken hacksaw blades. 
If a corner is nearby, the electrician often places one end of the pipe in 
the corner for a brace. Practically any other substantial structure is 
also searched out and used by electricians as a brace for the pipe. 
Electricians waste a lot of valuable and expensive time cutting pipe for 
conduit and replacing broken hacksaw blades. 
Thus, a need exists for a quick and easy technique or tool for holding 
conduit while it is cut on the job site during construction. The present 
invention fulfills such need by providing a quick acting and easy to use 
tool for holding the pipe or conduit while it is being cut. In the 
preferred embodiment of the present invention, a pair of fast acting, 
ratcheted, spring operated vices are mounted on the electrician's ladder. 
The vices are designed to be opened and locked in the open position with 
one hand, and the vices will automatically close and clamp against the 
conduit or pipe placed in the vices. 
SUMMARY OF INVENTION 
In accordance with the present invention, a vice is provided for holding 
and gripping an object. The vice includes a vice housing and a vice jaw 
that is supported by the vice housing and is moveable in and out of the 
housing between an extended position and a retracted position. The vice 
jaw is continuously biased, such as by a spring, towards the retracted 
position for clamping the vice jaw against an object that may be placed in 
the jaw. In this manner the vice jaw is operable to grip an object. A 
plurality of teeth are formed along one side of the vice jaw, and at least 
one housing tooth is formed in the vice housing for engaging the jaw 
teeth. The jaw teeth and the housing tooth are oriented to prevent 
movement of the jaw towards the extended position when the jaw teeth and 
the housing tooth are engaged. The vice jaw may be pulled out of the vice 
housing towards the extended position only when the jaw teeth and the 
housing are disengaged. 
In the preferred embodiment, the jaw teeth are formed along the underside 
of the vice jaw, and the housing tooth is formed below the vice jaw. In 
this orientation, the weight of an object placed in the vice jaw forces 
the jaw teeth downwardly to engage the housing tooth. The jaw teeth are 
inclined outwardly towards the extended position and the housing tooth is 
inclined inwardly towards the retracted position. When engaged in this 
configuration, the jaw teeth and the housing tooth operate as a ratchet 
allowing the jaw to move towards the retracted position and blocking the 
jaw from moving towards the extended position. 
In accordance with another aspect of the invention, a notch is formed in 
the upper side a rear portion of the jaw, and an engagement surface is 
provided on the housing disposed above the notch for selectively engaging 
the notch. In the extended position the forward end of the jaw is moveable 
in an upward direction so that the notch may be placed into engagement 
with the housing surface by moving the jaw to the extended position and 
then cocking the jaw upwardly. A spring is connected to the jaw biasing it 
towards the retracted position, and is operable to urge the notch against 
the housing surface to hold the jaw in the cocked extended position. When 
a downward force is placed on the jaw, such as by placing an object in the 
jaw, the jaw and the notch are forced downwardly and the notch is 
disengaged from the housing surface to release the jaw for movement 
towards the retracted position. 
In accordance with another aspect of the present invention, a vice housing 
is mounted on a ladder having at least two generally upright ladder legs 
and having a plurality of rungs extending between the ladder legs in a 
spaced apart relationship. A vice jaw extends from the vice housing for 
selectively clamping and supporting an object on the ladder. In the 
preferred embodiment, the vice housing has a slideway formed therein, and 
the jaw includes a gripping surface having a generally vertical 
orientation for clamping and holding the object. A slide arm forms a 
portion of the jaw and is disposed in the slideway, thereby, mounting the 
jaw in the vice housing. The slide arm is operable to slide within the 
slideway between a retracted position and an extended position. A ratchet 
mechanism operates on the jaw, and preferably operates on the slide arm of 
the jaw, for selectively preventing the jaw from moving towards the 
extended position.

DETAILED DESCRIPTION 
Referring now to the Drawings in which like reference characters designate 
like or corresponding parts throughout the several views, there as shown 
in FIG. 1 a ladder 10 having a pair of vices 12 and 14 mounted thereon. 
The ladder 10 is a standard wooden electrician's stepladder having two 
generally upright ladder legs 16 and 18 with a plurality of ladder rungs 
20 extending therebetween. 
The ladder vices 12 and 14 are mounted on the ladder legs 16 and 18, 
respectively, adjacent the ends of the third rung 20 from the bottom of 
the ladder. The ladder vices 12 and 14 may be mounted anywhere along the 
ladder legs 16 and 18, but in the preferred embodiment the ladder vices 
should be mounted adjacent to the ends of ladder rungs, usually the 
second, third or fourth ladder rung from the bottom of the ladder, so that 
the rung may be used to steady pipe held by the vices. 
The ladder vices 12 and 14 include vice jaws 22 and 24 that extend 
outwardly from the ladder legs 16 and 18 for grasping an object such as a 
pipe conduit 26 against the ladder 10. The jaws 22 and 24 should normally 
be aligned with the ladder rung 20 so that a foot or hand may be placed on 
the conduit 26 and the rung 20 adjacent thereto for bracing the pipe 26 as 
it is supported by the vice jaws 22 and 24. Such bracing facilitates the 
process of cutting the conduit 26 held in the vices 12 and 14. 
The ladder vices 12 and 14 may be mounted on the ladder legs 16 and 18 by 
many types of conventional fasteners, such as bolts, wood screws, metal 
screws, clasps or clamps. In the preferred embodiment, the ladder vices 12 
and 14 are bolted or screwed to wooden ladder. Most wooden ladders include 
tension support rods extending beneath each ladder rung. The support rods 
extend through the ladder legs 16 and 18 immediately under the ladder 
rungs 20. A nut is then placed on at least one end of the support rod to 
secure and tension it between the ladder legs 16 or 18. In this 
construction, the support rod and the nut protrude from the side of the 
ladder and it is necessary to use a spacing bracket or to place a void in 
the ladder vices 12 and 14 in order to mount the ladder vices 12 and 14 
immediately adjacent to the ends of the rungs 20. Alternatively, the 
ladder 10 may be constructed with the support rods fastened to the ladder 
by nuts or other fasteners that are recessed into the ladder so that no 
protrusions are formed on the outside surfaces of the ladder legs 16 and 
18. 
Referring now to FIG. 2 there is shown a more detailed view of the ladder 
vice 12 mounted on the ladder leg 16. The ladder vice 12 is constructed of 
two basic parts, a vice housing 28 and a vice jaw 22. The vice housing 28 
is secured to the ladder leg by four bolts or wood screws, 30, 32, 34 and 
36. 
A short handle 38 extends from the side of the jaw 22 for use in pulling 
the jaw from the vice housing 28. In the preferred embodiment, the handle 
is threaded and screwed into a threaded aperture in the jaw. In this 
manner, the handle can be removed if desired. 
The jaw 22 and the vice housing 28 are shaped to enhance safety. When the 
jaw 22 is in a fully retracted position, it forms a smooth contour with 
respect to the ladder leg 16. The upper portion 40 and the lower portion 
42 of the jaw 22 are tapered towards the ladder leg 16 so that there are 
no abrupt protrusions or catch surfaces on which to snag a pant leg. The 
edges and corners of the vice housing 28 are likewise contoured to 
minimize the risk of snagging a pant leg, and, if desired, the handle 38 
may be removed to further enhance safety. 
Referring now to FIG. 3, there is shown a somewhat diagrammatical view of 
the interior of the vice 12. The jaw 22 includes a generally horizontal 
slidearm 44 disposed within a generally horizontal slideway 46 in the vice 
housing 28. A plurality of the jaw teeth 48 are formed along the underside 
of the slidearm 44 and are inclined pointing downwardly and outwardly with 
respect to the vice housing 28. The jaw teeth 48 are, thus, pointing 
toward the extended position. Three housing teeth 50 are formed on the 
vice housing 28 in the slideway 46. The housing teeth 50 are configured to 
mate and mesh with the jaw teeth 48 and are inclined inwardly (towards the 
retracted position) so that the jaw teeth 48 and the housing teeth 50, 
when engaged, operate in a ratchet action whereby the jaw and housing 
teeth will prevent the jaw 22 from moving towards the extended position, 
but the inclination of the teeth will allow the jaw 22 to move rearwardly 
in a ratchet action towards the retracted position. When an object is 
placed in the jaw 22 as shown in FIG. 1, the downward weight of the object 
will force the jaw teeth 48 downwardly to engage the housing teeth 50 for 
operation in the ratchet action. 
The slideway 46 is dimensioned to provide a space 52 sufficient to allow 
the jaw teeth 48 and the housing teeth 50 to be disengaged by lifting or 
cocking the forward end of the jaw 22 upwardly. The jaw 22 may, thus, be 
lifted upwardly and pulled out of the vice housing 28 toward the extended 
position. 
A spring 54 has one end secured to the vice housing 28, and the other end 
of the spring 54 is connected to a loop 56 near the rearward end of the 
jaw 22. The function of the spring 54 is to continuously bias the jaw 22 
towards the retracted position. When the vice 12 is not in use, the spring 
54 will hold the jaw 22 in a fully retracted position. However, when the 
vice 12 is in use, the spring 54 will continuously urge the jaw 22 towards 
the retracted position, and, thus, will clamp the jaw 22 against an object 
placed therein. 
Referring now to FIG. 4, there is shown a somewhat diagrammatical view of 
the vice 12 with the jaw 22 in the fully extended and locked position. The 
slidearm 44 has a notch 58 formed in the upper side of the slidearm 
adjacent to the rear end thereof. When the jaw 22 has been pulled to the 
fully extended position, the jaw may be cocked upwardly so that the front 
edge of the notch engages an engagement or catch surface 60 on the vice 
housing 28. Since the spring 54 is urging the slidearm 44 towards the 
retracted position, the notch 58 engages the catch surface 60 and holds 
the jaw 22 in the open position. The clamping action or friction forces 
between the catch surface 60 and the notch 58 holds the jaw in the cocked 
position and prevents it from dropping out of engagement with the catch 
surface 60. 
When an object is placed in the jaw 22, the slidearm 44 is forced 
downwardly until the notch 58 disengages the catch surface 60, and the jaw 
teeth 48 and housing teeth 50 will engage. The spring 54 will then pull 
the jaw 22 towards the retracted position, while the teeth 48 and 50 
operate in a ratchet action. The jaw 22 will continue to move towards the 
retracted position until the object placed in the jaw is clamped against 
the catch surface 60 and/or the ladder leg 16 by the jaw 22. A generally 
vertical grip surface 68 is formed on the jaw 22 for clamping and holding 
objects placed in the jaw. If the vice 12 is mounted on the ladder leg 16, 
the grip surface 68 clamps the object (such as the conduit 26) in the jaw 
22 against the catch surface 60 and the ladder leg 16. 
The movement of the jaw 22 towards the extended position is limited by a 
lower stop 62. The stop 62 extends downwardly from the rear end of the 
slidearm 44. When the jaw 22 is pulled forward toward the extended 
position, the stop 62 will engage the housing teeth 50 to prevent the jaw 
22 from being pulled completely from the slideway 46. The lower stop 62 
also positions or aligns the jaw 22 in the correct position so that the 
jaw may be rotated or cocked upwardly to engage the notch 58 with the 
catch surface 60. 
A housing stop 64 is formed protruding downwardly from the upper edge of 
the slideway 46, and a corresponding upper stop 65 is formed on the upper 
rear portion of the slidearm 44. The stops 64 and 65 also engage one 
another to limit the outward movement of the jaw 22 and to align the notch 
58 with the catch surface 60. 
In the preferred embodiment, the jaw teeth 48 are cut into the jaw 22 at a 
linear density of approximately 16 teeth per inch. Thus, the jaw teeth 48 
are spaced at approximately one sixteenth of an inch apart so that the 
maximum play that the ratchet action between the jaw teeth 48 and the 
housing teeth 50 will allow is approximately one sixteenth of an inch, and 
the average play allowed is approximately one thirty-second of an inch. In 
the preferred embodiment, the jaw teeth 48 are positioned on the jaw 22 
relative to the clamping surface 68 so that the clamping surface 68 will 
clamp securely against the outside diameter of standard size conduit (such 
as conduit 26) with a minimum of play allowed. 
To provide a durable tool, both the jaw teeth 48 and the housing teeth 50 
should be made of a strong, hard material that is not brittle and resist 
breakage such as high quality, high carbon steel. The remaining portions 
of the vice housing 28 could be made of a less expensive material such as 
a lower quality steel, or other metal, or even a high strength plastic. 
Although the vice 12 of the present invention has been described as a 
ladder vice, it will be appreciated that the vice may be mounted on other 
objects, such as a scaffold, or a bracket on a workbench. It is also 
anticipated that larger or smaller sizes of the vice 12 may be appropriate 
for differing applications, and that different types of ratchet mechanisms 
may be used in the vice 12. 
Although a preferred embodiment has been described in the foregoing 
Detailed Description, it will be understood that the invention is capable 
of numerous rearrangements, modifications and substitution of parts 
without departing from the spirit of the invention.