The foregoing aspects and other features of the invention are explained in the following description, taken in connection with the accompanying drawings, wherein:
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The drive system 16 generally comprises a hydraulic pressure system with a pump 24, an electric motor 26, and a battery 28. The use of a hydraulic pressure system to move a ram is generally known in the art as seen by U.S. Pat. No. 5,113,679 which is hereby incorporated by reference in its entirety. Instead of the manually actuated pump disclosed in U.S. Pat. No. 5,113,679, the tool 10 uses the motor driven pump 24. In a preferred embodiment the pump 24 is similar to that described in U.S. Pat. Nos. 6,446,482 and 6,986,274 which are hereby incorporated by reference in their entireties. However, other types of pumps could be used. The hydraulic system includes a pressurized hydraulic reservoir 30 that the pump 24 can receive hydraulic fluid from and, which can receive hydraulic fluid from the compression head 14 as the ram 20 is being retracted. In the embodiment shown, the motor 26 is a high performance rare earth element permanent magnet motor manufactured by G.E.C.-Alsthom. However, in alternate embodiments, other types of motors could be used. The motor 26 is directly connected to the pump 24 without a gear transmission. The battery 28, in the embodiment shown, is an 18 volt removable rechargeable Ni-MH battery yielding 2.6 amp-hours of charge. However, in alternate embodiments, other types of batteries or power sources could be used. The battery 28 has a latch 32 for snap latching and removing the battery from connection with the housing 12. Located inside the housing 12 is a battery terminal 34 for making electrical connection with a connected battery.
The control system 18 generally comprises an activation trigger 36, a hydraulic system pressure switch or sensor 38, a release trigger 40, and a printed circuit board 42. The activation trigger 36 generally comprises a trigger member 44 and a microswitch 46. The trigger member 44 is pivotably mounted to the housing 12. A spring 48 is used to bias the trigger member 44 in a forward position. The trigger member 44 has a section 50 adapted to activate the microswitch 46 when the trigger member 44 is depressed by a user. The pressure sensor 38 is similar to the pressure sensor described in U.S. Pat. No. 5,113,679 with a spring loaded plunger 39 and a microswitch 41. When the hydraulic system pressure reaches a predetermined pressure, such as about 6,000 psi for example, the plunger 39 is moved by the hydraulic fluid. The spring (not shown) is compressed and the microswitch 41 is activated.
The release trigger 40 is connected to a release valve 50 coupled to the hydraulic system. The release valve 50 allows hydraulic fluid to return from the ram cylinder to the hydraulic fluid reservoir when the release trigger 40 is manually actuated by a user. As noted above, the ram 20 is a spring loaded ram. It is spring loaded towards a retracted position. Hydraulic fluid can be pumped by the hydraulic drive system to the ram cylinder of the frame to overcome the bias of the spring and drive the ram forward to an extended position. When the hydraulic fluid is released through the valve 52, the ram's spring can bias the ram from its extended position back towards its fully retracted position.
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In this embodiment the user selectable control 54 includes the controller 42 and a sensor 58. The rotatable selector member 56 is operably coupled to the controller 42. The rotatable selector member 56 is adapted to send a signal to the controller 42 based upon the position or setting of the dial 56. The sensor 58, in this embodiment, is adapted to sense a characteristic of the hydraulic fluid function. In particular, the sensor 58 is adapted to sense a percentage or quantity of hydraulic fluid returned through the retracting system back to the fluid reservoir. However, in an alternate embodiment, any suitable type of sensor could be provided, such as a sensor adapted to sense the position or location of the ram 20 on the frame for example. The sensor 58 is coupled to the controller 42 to send a signal corresponding to its sensed characteristic to the controller 42. The controller 42 is also coupled to the release valve 52. In this embodiment the release valve 52 is adapted to be manually opened by the user trigger 40 and either manually closed by release of the trigger and/or automatically closed by the controller 42.
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As noted above, the dial 56 is connected to the controller 42. Position of the dial 56 signals the controller of the size of connector which is being crimped. The controller is adapted to determine or select a rear location of the ram retraction based upon the position of the dial. For example, for a small size connector, the ram is retracted from its extended position a distance less than the distance or retraction for a larger size connector. Thus, for the small size connector the location of the end of the ram retraction versus its fullest possible retraction position is much more than the location of the end of the ram retraction for the large size connector from the fullest possible retraction position (the fully open, fully retracted location of the ram). In a preferred embodiment, the dial is connected electromagnetically to a drain pin of the release valve 52. However, it could be electromagnetically connected to a drain pin of another valve connected in series with the valve 52. In one type of preferred system, the user selectable control is adapted to consistently release a percentage of fluid from the ram cylinder back to the fluid reservoir each time the release system is actuated; a different percentage for each one of the user selected settings.
In operation, a user would set the dial 56 to indicate the size and material of the connector to be crimped. The user would actuate the activation trigger 36. The ram 20 is moved to an extended position on the frame to crimp the connector. Upon completion of the crimp, the user can actuate the release trigger 40. In an alternate type of tool, the tool might comprise an automatic release cycle when a predetermined hydraulic pressure is reached such that the user does not need to actuate the release trigger 40. The valve 52 can remain open until the controller 42 signals the valve 52 to close. The signal for the valve 52 to close will come from the controller 42 based upon the selected setting of the dial 56 and the characteristic(s) sensed by the sensor 58. For example, if the dial is set for a 2/0 Cu connector, the controller 42 will signal the valve 52 to close when the characteristic(s) sensed by the sensor 58 corresponds to the preprogrammed or configured characteristic corresponding to a desired ram retraction position for a crimped 2/0 Cu connector to be removed and a new 2/0 Cu connector to be installed with minimal unnecessary retraction of the ram from its extended position. For example, retraction would be about ⅝ inch for a 2/0 copper connector and about 1⅛ inch of retraction for a 500 kcmil copper connect. These are only some examples and should not be considered as limiting.
The invention is such that a user can, by rotating a dial that is integral to the battery tool, preset the limit of ram retraction by a certain amount. This can be selected by the user depending on the type of size of connector that is being crimped. The result is an exact amount of ram retraction after every crimp and activation of the release trigger. Battery consumption is minimized because the user needs only to advance the ram the minimum distance necessary in order to complete the remaining crimps; without having to waste battery power on advancing the ram a given distance prior to its contact with the connector it is intending to crimp.
The preferred embodiment of this invention would be a dial or collar that fits cylindrically over a portion of the back of the crimp head, or over the plastic housing of the battery tool. This dial, preferably, is engraved or imprinted with lines and numerals which are indicative of given wire or connector sizes and materials. It is commonly known that aluminum connectors usually have a much larger diameter for a given size conductor than a copper connector has. This is the case because aluminum is nominally 61 percent as conductive as copper for the same cross section and, therefore, aluminum conductors are sized larger in order to compensate for that limitation. So, aluminum connectors are larger than copper connectors for a given cross section of conductor (or, “wire size”). Therefore, the dial could be marked in order to compensate for the type of connector and the wire size of connector being crimped. As an example, the user would dial in “250 CU” to indicate that the user is connecting a copper connector sized for 250,000 circular mils (cmils) of copper conductor. Alternately, the user could dial in “500 AL” which would indicate that the user was connecting a 500,000 cmil conductor to a 500,000 cmil aluminum connector. The user could change to other connector sizes simply by rotating the dial, or could rotate the dial to a ‘full’ or ‘open’ position which would result in complete (or fully manual) ram retraction to its rearmost position.
The tick marks on the dial would correspond with a “master” tick mark on the crimp head or on the body of the tool. The alignment of the dial tick mark with the master tick mark could, underneath the dial, regulate an electronic switch mechanism or mechanical mechanism which would limit the amount of hydraulic fluid going to hydraulic fluid reservoir; which would thereby limit the retraction of the ram of the tool.
The invention allows for limiting ram retraction of the ram for user ease and optimization of battery life. This invention draws its need from users of battery powered crimping tools who frequently crimp the same size of connector repeatedly. Although the invention has been described in connection with a crimping tool, features of the invention could be used with a cutting tool as well as any other tool which used an extendable and retractable ram. Features of the invention could also be used in a pneumatic tool or an electrically actuated tool. For a hydraulic tool, the fluid reservoir could be located separate from the tool. Features of the invention could also be used in a non-battery operated tool, such as a hand operated tool. The retraction of the ram can be mechanically stopped, hydraulically stopped, and/or electrically stopped.
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It should be understood that the foregoing description is only illustrative of the invention. Various alternatives and modifications can be devised by those skilled in the art without departing from the invention. Accordingly, the invention is intended to embrace all such alternatives, modifications and variances which fall within the scope of the appended claims.