Power enhancing unit for a linear power module

Details Power enhancing unit for a linear power module Power enhancing unit for a linear power module

1998-10-06

2002-02-12

Lopez, F. Daniel (Department: 3745)

Expansible chamber devices

Abutment connection between working member and power...

C092S140000, C074S110000

Reexamination Certificate

active

06345567

ABSTRACT:

The present invention relates to linear power modules for actuating industrial tools and more particularly to a unit for increasing the power output of the module during a selected portion of its operating cycle.
BACKGROUND OF THE INVENTION
Linear power modules typically have a power ram that is made to undergo reciprocating motion and that is connectable to the ram of an industrial tool for imparting linear motion to the tool ram in the operation of the tool. The linear power module includes a mechanism to effect the movement of the power ram. This mechanism usually takes the form of an air cylinder, a hydraulic cylinder, a spring mechanism, an explosive device, or an electromagnet apparatus. Industrial tools that require a very fast moving power ram, such as electrical terminal crimping tools, are generally limited to the use of explosive devices or spring mechanisms. These mechanisms, however, have the characteristic of relatively high power during the first part of the stroke of the power ram and a diminished amount of power as the stroke proceeds to its limit. Most industrial tool, such as terminal crimping tools, especially those having a linearly moving tool ram, require increased power during the last portion of the stroke. Therefore, the minimum power output of a linear power module determines its usefulness with respect to these industrial tools. An example of a linear power module and associated industrial tool having a linearly moving tool ram is shown in
FIG. 1
, and is the subject of copending patent application Ser. No. 08/xxxxxx, filed July xx, 1998, and is assigned to the present assignee. As seen in
FIG. 1
, an industrial terminal crimping tool
10
is positioned to be coupled to a linear power module
12
. The tool
10
includes a frame
14
and a threaded portion
16
that is threaded into a hole in the frame. A tool ram
18
is slidable within a longitudinal hole in the threaded portion
16
toward an anvil
20
. The threaded portion
16
is rigidly attached to a mounting flange
22
which removably attaches to the power module
12
via attachment bolts
24
in the usual manner. The power module
12
includes a compressible spring unit, not shown, that when compressed and then actuated, moves a power ram
26
that engages the tool ram
18
for operating the tool
10
. A typical wire connector
30
is shown in
FIG. 2
in a typical application. As shown, the wire connector
30
includes a C-shaped clamping member
32
and a wedge
34
. The clamping member
32
has a web
36
and two oppositely formed rolled edges
38
that diverge from left to right, as viewed in FIG.
2
. The rolled edges
38
form opposing channels for receiving a power cable
40
, or wire, and a tap wire
42
with the wedge
34
therebetween. The wedge has opposite edges that diverge similarly to the rolled edges
38
and are concave to better seat the cylindrical shaped power cable
40
and tap wire
42
. When installing the wire connector, the clamping member
32
is placed with one rolled edge over the power cable and the tap wire
42
in the opposite channel. The wedge
34
is then inserted into the larger end of the clamping member and forced into tight engagement with the cable
40
, tap wire
42
, and clamping member
32
and the assembly is then inserted into the tool
10
so that the edge of the clamping member
36
is against the anvil
20
, as shown in
FIG. 1
, and the end of the wedge
34
is against the end of the tool ram
18
. The tool
10
is then coupled to the power module
12
which is then actuated to drive the wedge
34
into full engagement with the clamping member to electrically interconnect the tap wire
42
to the cable
40
and produce the wire connection shown in FIG.
2
.
It will be appreciated that the force, derived from the compressed spring unit, that the power ram exerts on the tool ram toward the end of its stroke is greatly reduced with respect to the force available at the beginning of its stroke. Therefore, the linear power module must be overly robust to be effective in operating the industrial tool. This, of course requires that the linear power module be made stronger and necessarily heavier to accommodate the additional stresses, making the device more cumbersome and less convenient to use as a portable unit.
What is needed is a linear power module having a power enhancing unit that is disposed between the power module and the industrial tool that provides a mechanical advantage so that the power ram exerts a diminished force on the tool ram in the beginning of its stroke and a greater force toward the end of the stroke when the increased force is most needed.
SUMMARY OF THE INVENTION
A linear power module for actuating a tool ram of an industrial tool includes a power ram arranged to undergo motion along a power axis. A power enhancing unit is disposed between the power unit and the industrial tool. The power enhancing unit includes a frame and an input member coupled to the power ram and arranged to undergo movement within the frame from a first position to a second position. The power ram is operable to exert a primary force on the input member to effect this movement. An output member is coupled to the tool ram and a power enhancing mechanism is coupled to both the input member and the output member and arranged so that upon movement of the input member the output member undergoes movement and exerts a secondary force on the tool ram that is greater than the primary force for a portion of the movement of the output member. The tool ram has a tool axis that is coaxial with the power axis.
An embodiment of the invention will now be described by way of example with reference to the following drawings.


REFERENCES:
patent: 2829500 (1958-04-01), Butler
patent: 2897784 (1959-08-01), Harper
patent: 3400924 (1968-09-01), Arnold et al.
patent: 3807721 (1974-04-01), Arnold
patent: 3941362 (1976-03-01), Arnold et al.

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