WO2009095391A2 - Tool for producing insulation displacement connections and/or crimp connections - Google Patents

Tool for producing insulation displacement connections and/or crimp connections Download PDF

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Publication number
WO2009095391A2
WO2009095391A2 PCT/EP2009/050913 EP2009050913W WO2009095391A2 WO 2009095391 A2 WO2009095391 A2 WO 2009095391A2 EP 2009050913 W EP2009050913 W EP 2009050913W WO 2009095391 A2 WO2009095391 A2 WO 2009095391A2
Authority
WO
WIPO (PCT)
Prior art keywords
punch
receiving
receiving mechanism
tool
contact element
Prior art date
Application number
PCT/EP2009/050913
Other languages
French (fr)
Other versions
WO2009095391A3 (en
Inventor
Michael Gerst
Horst J. T. Knapp
Martin Lipp
Original Assignee
Tyco Electronics Amp Gmbh
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Tyco Electronics Amp Gmbh filed Critical Tyco Electronics Amp Gmbh
Publication of WO2009095391A2 publication Critical patent/WO2009095391A2/en
Publication of WO2009095391A3 publication Critical patent/WO2009095391A3/en

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
    • H01R43/01Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for connecting unstripped conductors to contact members having insulation cutting edges
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
    • H01R43/04Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for forming connections by deformation, e.g. crimping tool
    • H01R43/042Hand tools for crimping

Definitions

  • DE 0 390 760 discloses a device for fitting contacts with electrical conductors that includes a moveable, spring-loaded fastening member to eject the contact after the crimping process.
  • a spring-loaded fastening member of this type is mechanically complex to produce and susceptible to failure. Furthermore, an additional force must be applied during the crimping process in addition to the crimping force, in order to overcome the spring tension.
  • a tool according to the invention for producing insulation displacement connections and/or crimp connections comprises at least one punch mechanism fitted on a punch lever arm and at least one receiving means, fitted on a receiving lever arm, for receiving at least one contact element, the punch lever arm and the receiving lever arm being moveable relative to one another in such a way that the receiving mechanism can be moved towards the punch mechanism in at least one working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism and the punch mechanism, and at least one contact element arranged on the receiving mechanism.
  • the punch lever arm and the receiving lever arm can also be moved relative to one another in such a way that the receiving mechanism can be moved away from the punch mechanism in a return stroke.
  • At least one ejector which is arranged in a fixed manner on the punch lever arm, is fitted on the punch lever arm in such a way that at least a part of the ejector presses either directly or indirectly against the contact element from the side of the contact element remote from the punch mechanism in order to release the contact element from the receiving mechanism when the receiving mechanism is moved away from the punch mechanism.
  • a tool which comprises at least one punch mechanism fitted on a punch lever arm, at least one receiving mechanism, fitted on a receiving lever arm, for receiving at least one contact element and at least one ejector fitted in a fixed manner on the punch lever arm
  • the punch lever arm and the receiving lever arm are moved relative to one another in such a way that the receiving mechanism is moved towards the punch mechanism in a working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism and the punch mechanism, and at least one contact element arranged on the receiving mechanism.
  • the punch lever arm and the receiving lever arm are then moved relative to one another in such a way that the receiving mechanism moves away from the punch mechanism in a return stroke.
  • a part of the ejector presses against the contact element from the side remote from the punch mechanism, in order to release the contact element from the receiving mechanism when the receiving mechanism is moved away from the punch mechanism.
  • a tool according to the invention is provided with a simply constructed ejector, which does not include any additional moving parts and is therefore very reliable.
  • the method according to the invention enables a connection between at least one contact element and at least one electrically conductive wire to be produced without having to overcome additional spring tension.
  • At least one ejector is arranged in such a way that at least one part of the ejector is guided laterally towards the receiving mechanism in order to press against the contact element when the receiving mechanism is moved away from the punch mechanism. This enables the contact element to be ejected reliably without having to make any modifications to a conventional receiving mechanism.
  • the receiving mechanism is provided with a lateral recess through which the at least one part of the at least one ejector can be guided so as to press against the contact element. In such a way the ejector can also act upon a contact element which does not project laterally from the receiving mechanism.
  • the receiving mechanism includes at least one receiving passageway, through which a part of the at least one ejector can be guided in order to press against the contact element when the receiving mechanism is moved away from the punch mechanism.
  • the ejector acts upon a central region of the contact element, which is a reliable way to prevent the contact element from breaking as a result of the asymmetrical action of the ejector.
  • the tool includes an ejector on the right and left sides respectively of the receiving mechanism.
  • the contact element is reliably removed from the receiving mechanism without the risk of breaking the contact element due to the action of the ejector.
  • the receiving mechanism includes at least one cable channel for receiving at least one cable, which further includes at least one electrically conductive wire. This enables an electrical cable, having at least one electrically conductive wire, to be brought into a defined position on the receiving mechanism, thus ensuring that a high-quality connection can be reliably produced.
  • At least one cable channel includes at least one clamping mechanism to clamp the at least one cable. This ensures that the cable is held in the defined position in a particularly reliable manner.
  • the clamping mechanism is formed with at least one convexity in at least one side wall of the at least one cable channel.
  • a convexity of this type, in the side wall of a cable channel, is particularly simple to produce and provides a reliable clamping device.
  • the receiving mechanism is formed as an exchangeable die. Having an exchangeable die enables the tool to be adapted in a particularly simple manner to different types of contact elements and cables as required.
  • the receiving mechanism is formed so as to receive at least one connector, the connector having at least one contact element, and the ejector is formed so as to release the at least one contact element by releasing at least one connector from the receiving mechanism. Therefore, connections can be produced reliably, simply and rapidly with a connector having at least one contact element.
  • the receiving mechanism is formed so as to receive at least one connector and the ejector is formed so as to release the at least one connector, the connector having a plurality of contact elements. This enables a plurality of connections to be produced in a single operating step.
  • the tool is formed as a mobile tool, in particular as a pair of hand-held pliers.
  • the mobile tool such as hand-held pliers, enables the connections to be produced directly at the site of installation. In this way, cable harnesses can be installed and/or repaired directly on site.
  • the punch mechanism and the receiving mechanism can be moved relative to one another through user force.
  • a tool, which is actuated through user force, is particularly simple to produce, is particularly low in weight and reliable.
  • the punch mechanism and the receiving mechanism can be moved relative to one another electrically.
  • An electrically-driven tool is particularly simple to operate since no user force is required to produce the connection. This further ensures that sufficient force to produce the connection is always provided.
  • the punch mechanism and the receiving mechanism can be moved relative to one another pneumatically or hydraulically.
  • a pneumatically or hydraulically driven device is particularly comfortable to operate since no user force is required to produce the connection. This further ensures that sufficient force to produce the connection is always provided.
  • a pneumatic or hydraulic drive also provides low weight.
  • the electrical, pneumatic or hydraulic drive can be provided with a force limiter, in order to limit the force exerted on the contact element in a predetermined manner. This prevents the contact element and/or the electric wire from being damaged due to excessive force.
  • the tool includes a ratchet that slips when the force exerted on the contact element exceeds a predetermined value in order to limit the force exerted on the contact element to the predetermined value. This prevents the contact element and/or the electric wire from being damaged due to excessive force.
  • the tool includes a ratchet which slips when a predetermined distance between the punch mechanism and the receiving mechanism is not attained in order to limit the minimum distance between the punch mechanism and the receiving mechanism. This ensures that the contact element and/or the electric wire are not damaged by the components being pressed too closely together.
  • the receiving mechanism is formed so as to receive at least one connector comprising at least one contact element, and the receiving mechanism is moved towards the punch mechanism in a working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism and the punch, and at least one contact element present in the connector arranged on the receiving mechanism, the ejector releasing at least one connector from the receiving mechanism when the punch mechanism is moved away from the receiving mechanism.
  • Figure 1 is a perspective side view of a tool according to the invention in the form of a pair of hand-held pliers.
  • Figure 2 is an oblique perspective view from below of the front region of the tool from Figure 1.
  • Figure 3 is an oblique plan view of the front region of the tool from Figure 1.
  • Figure 1 is a perspective side view of a tool 2 according to the invention, which is formed as a pair of hand-held pliers.
  • the hand-held pliers include a punch lever arm 8, shown above in Figure 1, and a receiving lever arm 10 shown below in Figure 1.
  • the punch lever arm 8 is configured so as to have the form of a Y when lying on its side, and is provided in the rear region thereof, shown on the right in Figure 1 , with a first grip region 16 for actuating the punch lever arm 8.
  • the first grip region 16 of the punch lever arm 8 can be provided with a non-slip coating to enable improved gripping of the punch lever arm 8.
  • the punch lever arm 8 splits into an upper leg 12 and lower leg 14.
  • the front region 34 includes the upper leg 12 and the lower leg 14 having two gussets 24 arranged parallel to and at a distance from one another.
  • the lower leg 14 extends obliquely downwards from the rear to the front and is provided with an articulating mechanism 22 at its lower end.
  • the articulating mechanism 22 rotatably connects the punch lever arm 8 to the receiving lever arm 10, which is arranged between the two gussets 24.
  • the receiving lever arm 10 is provided with a second grip region 18 for actuating the receiving lever arm 10.
  • the second grip region 18 of the receiving lever arm 10 can be provided with a non-slip coating to enable improved gripping of the receiving lever arm 10.
  • the receiving lever arm 10 is provided with a receiving mechanism 6 for receiving at least one contact element (not shown).
  • a punch mechanism 4 is formed on the upper leg 12 of the punch lever arm 8.
  • the receiving mechanism 6 is moved towards the punch mechanism 4 in a working stroke, in such a way that a contact element, which is arranged on the receiving mechanism 6 and is not shown in Figure 1 , is connected to a wire that is also not shown in Figure 1. Additionally, the contact element is arranged at least in part between the receiving mechanism 6 and the punch mechanism 4. The smallest possible distance between the punch mechanism 4 and the receiving mechanism 6 can be adjusted by an adjustment device or ratchet arranged in the articulating mechanism 22.
  • the receiving mechanism 6 moves away from the punch mechanism 4 in a return stroke.
  • a fixed ejector 20, with a vertical leg 30, is arranged at a right angle on either side of the lower leg 14 of the punch lever arm 8.
  • the vertical legs 30 are aligned so as to be parallel to the stroke direction of the receiving mechanism 6.
  • the processes of pushing the lever arms 8 and 10 together or moving said arms away from one another can be carried out or supported by an electrical, pneumatic or hydraulic drive in order to reduce the force to be applied by the operator.
  • cable channels 28 for receiving cables which contain at least one electrically conductive wire to be connected to at least one contact element.
  • each side of the receiving mechanism 6 includes two narrow cable channels 28 for a single-conductor cable respectively and a wide cable channel 28 between the two narrow cable channels 28 for a multi-polar ribbon cable.
  • the side walls of the cable channels 28 are provided with convexities to clamp the cable in the respective cable channel 28. This ensures the cables are fixed in the desired position, and enables the connection to the contact elements to be produced in a particularly reliable manner.
  • Figure 2 is an oblique perspective view from below of the front region 34 of the tool 2 shown in Figure 1. Like features of the tool 2 are provided with like reference numerals and will not be discussed in detail again.
  • cables 32 are inserted into the cable channels 28 of the receiving mechanism 6.
  • the slot-shaped receiving passageways 26 formed in the receiving mechanism 6 are clearly shown. Also, clear are the right-angled ejectors 20, the vertical legs 30 of which are guided through the receiving passageways 36 formed in the receiving mechanism 6 when the receiving mechanism 6 is moved away from the punch mechanism 4. The vertical legs 30 of the ejector 20 then emerge from the upper side of the receiving mechanism 6 in order to release the contact element, not visible in Figure 2, from the receiving mechanism 6.
  • FIG 3 is an oblique perspective view from above of the front region 34 of the tool 2 from Figures 1 and 2.
  • the punch mechanism 4 which is fitted on the front region 34 of the upper leg 12 of the lever arm 8, is shown clearly.
  • the receiving mechanism 6 is located below the front region 34 having the punch mechanism 4.
  • a receiving passageway 26 is shown, through which the vertical leg 30 of the ejector 20 passes upon passing through the receiving mechanism 6 when the receiving mechanism 6 is lowered, i.e. moved away from the punch mechanism 4.
  • the cable channels 28 includes the convexities, formed in the side walls for clamping the cable 32, are shown in the region of the upper side of the receiving mechanism 6, facing the viewer and in the rear region facing away from the viewer.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Manufacturing Of Electrical Connectors (AREA)
  • Coupling Device And Connection With Printed Circuit (AREA)

Abstract

A tool (2) for producing insulation displacement connections and/or crimp connections, which includes at least one punch mechanism (4) fitted on a punch lever arm (8), and at least one receiving mechanism (6), fitted on a receiving lever arm (10), for receiving at least one contact element. The punch lever arm (8) and the receiving lever arm (10) are moveable relative to one another in such a way that the receiving mechanism (6) can be moved towards the punch mechanism (4) in at least one working stroke in order to produce a connection between an electrically conductive wire, which is arranged at least in part between the receiving mechanism (6) and the punch mechanism (4), and at least one contact element, which is arranged on the receiving mechanism (6). The receiving mechanism (6) can be moved away from the punch mechanism (4) in a return stroke. A fixed ejector (20) is fitted on the punch lever arm (8) in such a way that at least a part of the ejector (20) presses against the contact element from the side of the contact element remote from the punch mechanism (4) in order to release the contact element from the receiving mechanism (6) when the receiving mechanism (6) is moved away from the punch mechanism (4).

Description

TOOL FOR PRODUCING INSULATION DISPLACEMENT CONNECTIONS
AND/OR CRIMP CONNECTIONS
Tools with which insulation displacement connections and/or crimp connections can be produced between an electrically conductive wire and at least one contact element are well known. The operation of these tools is simplified when the tool has an ejector function to eject the completed contact element once the connection has been produced.
DE 0 390 760 discloses a device for fitting contacts with electrical conductors that includes a moveable, spring-loaded fastening member to eject the contact after the crimping process. A spring-loaded fastening member of this type is mechanically complex to produce and susceptible to failure. Furthermore, an additional force must be applied during the crimping process in addition to the crimping force, in order to overcome the spring tension.
It is therefore an object of the present invention to provide a tool and a method for producing insulation displacement connections and/or crimp connections with a reliable ejector mechanism that is simple to produce and with which no additional force must be applied to produce the connection.
These objectives are achieved in their entirety by a tool according to independent claim 1 and a method according to independent claim 17.
A tool according to the invention for producing insulation displacement connections and/or crimp connections comprises at least one punch mechanism fitted on a punch lever arm and at least one receiving means, fitted on a receiving lever arm, for receiving at least one contact element, the punch lever arm and the receiving lever arm being moveable relative to one another in such a way that the receiving mechanism can be moved towards the punch mechanism in at least one working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism and the punch mechanism, and at least one contact element arranged on the receiving mechanism. The punch lever arm and the receiving lever arm can also be moved relative to one another in such a way that the receiving mechanism can be moved away from the punch mechanism in a return stroke. In this case at least one ejector, which is arranged in a fixed manner on the punch lever arm, is fitted on the punch lever arm in such a way that at least a part of the ejector presses either directly or indirectly against the contact element from the side of the contact element remote from the punch mechanism in order to release the contact element from the receiving mechanism when the receiving mechanism is moved away from the punch mechanism.
In a method according to the invention for producing insulation displacement connections and/or crimp connections with a tool which comprises at least one punch mechanism fitted on a punch lever arm, at least one receiving mechanism, fitted on a receiving lever arm, for receiving at least one contact element and at least one ejector fitted in a fixed manner on the punch lever arm, the punch lever arm and the receiving lever arm are moved relative to one another in such a way that the receiving mechanism is moved towards the punch mechanism in a working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism and the punch mechanism, and at least one contact element arranged on the receiving mechanism. The punch lever arm and the receiving lever arm are then moved relative to one another in such a way that the receiving mechanism moves away from the punch mechanism in a return stroke. A part of the ejector presses against the contact element from the side remote from the punch mechanism, in order to release the contact element from the receiving mechanism when the receiving mechanism is moved away from the punch mechanism.
A tool according to the invention is provided with a simply constructed ejector, which does not include any additional moving parts and is therefore very reliable. The method according to the invention enables a connection between at least one contact element and at least one electrically conductive wire to be produced without having to overcome additional spring tension.
In one embodiment shown, at least one ejector is arranged in such a way that at least one part of the ejector is guided laterally towards the receiving mechanism in order to press against the contact element when the receiving mechanism is moved away from the punch mechanism. This enables the contact element to be ejected reliably without having to make any modifications to a conventional receiving mechanism.
In another embodiment, the receiving mechanism is provided with a lateral recess through which the at least one part of the at least one ejector can be guided so as to press against the contact element. In such a way the ejector can also act upon a contact element which does not project laterally from the receiving mechanism.
In one embodiment shown, the receiving mechanism includes at least one receiving passageway, through which a part of the at least one ejector can be guided in order to press against the contact element when the receiving mechanism is moved away from the punch mechanism. In this way, the ejector acts upon a central region of the contact element, which is a reliable way to prevent the contact element from breaking as a result of the asymmetrical action of the ejector.
In one embodiment shown, the tool includes an ejector on the right and left sides respectively of the receiving mechanism. By having two ejectors that act symmetrically on the contact element, the contact element is reliably removed from the receiving mechanism without the risk of breaking the contact element due to the action of the ejector.
In one embodiment shown, the receiving mechanism includes at least one cable channel for receiving at least one cable, which further includes at least one electrically conductive wire. This enables an electrical cable, having at least one electrically conductive wire, to be brought into a defined position on the receiving mechanism, thus ensuring that a high-quality connection can be reliably produced.
In a further embodiment shown, at least one cable channel includes at least one clamping mechanism to clamp the at least one cable. This ensures that the cable is held in the defined position in a particularly reliable manner.
In one embodiment shown, the clamping mechanism is formed with at least one convexity in at least one side wall of the at least one cable channel. A convexity of this type, in the side wall of a cable channel, is particularly simple to produce and provides a reliable clamping device.
In one embodiment shown, the receiving mechanism is formed as an exchangeable die. Having an exchangeable die enables the tool to be adapted in a particularly simple manner to different types of contact elements and cables as required.
In one embodiment shown, the receiving mechanism is formed so as to receive at least one connector, the connector having at least one contact element, and the ejector is formed so as to release the at least one contact element by releasing at least one connector from the receiving mechanism. Therefore, connections can be produced reliably, simply and rapidly with a connector having at least one contact element.
In one embodiment shown, the receiving mechanism is formed so as to receive at least one connector and the ejector is formed so as to release the at least one connector, the connector having a plurality of contact elements. This enables a plurality of connections to be produced in a single operating step.
In one embodiment shown, the tool is formed as a mobile tool, in particular as a pair of hand-held pliers. The mobile tool, such as hand-held pliers, enables the connections to be produced directly at the site of installation. In this way, cable harnesses can be installed and/or repaired directly on site.
In one embodiment shown, the punch mechanism and the receiving mechanism can be moved relative to one another through user force. A tool, which is actuated through user force, is particularly simple to produce, is particularly low in weight and reliable.
In a further embodiment, the punch mechanism and the receiving mechanism can be moved relative to one another electrically. An electrically-driven tool is particularly simple to operate since no user force is required to produce the connection. This further ensures that sufficient force to produce the connection is always provided.
In a further embodiment, the punch mechanism and the receiving mechanism can be moved relative to one another pneumatically or hydraulically. A pneumatically or hydraulically driven device is particularly comfortable to operate since no user force is required to produce the connection. This further ensures that sufficient force to produce the connection is always provided. A pneumatic or hydraulic drive also provides low weight.
The electrical, pneumatic or hydraulic drive can be provided with a force limiter, in order to limit the force exerted on the contact element in a predetermined manner. This prevents the contact element and/or the electric wire from being damaged due to excessive force.
In one embodiment shown, the tool includes a ratchet that slips when the force exerted on the contact element exceeds a predetermined value in order to limit the force exerted on the contact element to the predetermined value. This prevents the contact element and/or the electric wire from being damaged due to excessive force.
In a further embodiment, the tool includes a ratchet which slips when a predetermined distance between the punch mechanism and the receiving mechanism is not attained in order to limit the minimum distance between the punch mechanism and the receiving mechanism. This ensures that the contact element and/or the electric wire are not damaged by the components being pressed too closely together.
In a further embodiment of the method of producing a connection, the receiving mechanism is formed so as to receive at least one connector comprising at least one contact element, and the receiving mechanism is moved towards the punch mechanism in a working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism and the punch, and at least one contact element present in the connector arranged on the receiving mechanism, the ejector releasing at least one connector from the receiving mechanism when the punch mechanism is moved away from the receiving mechanism. This is a simple and reliable way of producing connections between at least one electrically conductive wire and a contact element arranged in a connector, and of releasing the connector from the receiving mechanism after the connection has been produced.
BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in greater detail below with reference to the embodiments shown in Figures 1 to 3, in which:
Figure 1 is a perspective side view of a tool according to the invention in the form of a pair of hand-held pliers.
Figure 2 is an oblique perspective view from below of the front region of the tool from Figure 1.
Figure 3 is an oblique plan view of the front region of the tool from Figure 1.
Figure 1 is a perspective side view of a tool 2 according to the invention, which is formed as a pair of hand-held pliers. The hand-held pliers include a punch lever arm 8, shown above in Figure 1, and a receiving lever arm 10 shown below in Figure 1. In this case, the punch lever arm 8 is configured so as to have the form of a Y when lying on its side, and is provided in the rear region thereof, shown on the right in Figure 1 , with a first grip region 16 for actuating the punch lever arm 8. The first grip region 16 of the punch lever arm 8 can be provided with a non-slip coating to enable improved gripping of the punch lever arm 8.
In the front region 34, shown on the left in Figure 1, the punch lever arm 8 splits into an upper leg 12 and lower leg 14. The front region 34 includes the upper leg 12 and the lower leg 14 having two gussets 24 arranged parallel to and at a distance from one another. The lower leg 14 extends obliquely downwards from the rear to the front and is provided with an articulating mechanism 22 at its lower end. The articulating mechanism 22 rotatably connects the punch lever arm 8 to the receiving lever arm 10, which is arranged between the two gussets 24. In the rear region, located at the right in Figure 1, and underneath the articulating mechanism 22, the receiving lever arm 10 is provided with a second grip region 18 for actuating the receiving lever arm 10. The second grip region 18 of the receiving lever arm 10 can be provided with a non-slip coating to enable improved gripping of the receiving lever arm 10. Above the articulating mechanism 22, the receiving lever arm 10 is provided with a receiving mechanism 6 for receiving at least one contact element (not shown).
A punch mechanism 4 is formed on the upper leg 12 of the punch lever arm 8. When the tool 2 is actuated by pressing the two lever arms 8, 10 together, the receiving mechanism 6 is moved towards the punch mechanism 4 in a working stroke, in such a way that a contact element, which is arranged on the receiving mechanism 6 and is not shown in Figure 1 , is connected to a wire that is also not shown in Figure 1. Additionally, the contact element is arranged at least in part between the receiving mechanism 6 and the punch mechanism 4. The smallest possible distance between the punch mechanism 4 and the receiving mechanism 6 can be adjusted by an adjustment device or ratchet arranged in the articulating mechanism 22.
When the hand-held pliers are released by moving the two lever arms 8, 10 away from one another, the receiving mechanism 6 moves away from the punch mechanism 4 in a return stroke. A fixed ejector 20, with a vertical leg 30, is arranged at a right angle on either side of the lower leg 14 of the punch lever arm 8. The vertical legs 30 are aligned so as to be parallel to the stroke direction of the receiving mechanism 6. When the receiving mechanism 6 moves away from the punch mechanism 4 in a return stroke, the upper ends of the vertical legs 30 of the right-angled ejector 20 pass through the receiving passageways 26 formed in the receiving mechanism 6 and thus release the contact element (not shown in Figure 1) from the receiving mechanism 6.
In another embodiment, which is not shown, the processes of pushing the lever arms 8 and 10 together or moving said arms away from one another can be carried out or supported by an electrical, pneumatic or hydraulic drive in order to reduce the force to be applied by the operator.
Provided on the lateral ends of the receiving mechanism 6, as shown in Figure 1, are cable channels 28 for receiving cables which contain at least one electrically conductive wire to be connected to at least one contact element.
In the embodiment shown in Figure 1, each side of the receiving mechanism 6 includes two narrow cable channels 28 for a single-conductor cable respectively and a wide cable channel 28 between the two narrow cable channels 28 for a multi-polar ribbon cable. The side walls of the cable channels 28 are provided with convexities to clamp the cable in the respective cable channel 28. This ensures the cables are fixed in the desired position, and enables the connection to the contact elements to be produced in a particularly reliable manner.
Figure 2 is an oblique perspective view from below of the front region 34 of the tool 2 shown in Figure 1. Like features of the tool 2 are provided with like reference numerals and will not be discussed in detail again. In the illustration in Figure 2, cables 32 are inserted into the cable channels 28 of the receiving mechanism 6.
In this view, the slot-shaped receiving passageways 26 formed in the receiving mechanism 6 are clearly shown. Also, clear are the right-angled ejectors 20, the vertical legs 30 of which are guided through the receiving passageways 36 formed in the receiving mechanism 6 when the receiving mechanism 6 is moved away from the punch mechanism 4. The vertical legs 30 of the ejector 20 then emerge from the upper side of the receiving mechanism 6 in order to release the contact element, not visible in Figure 2, from the receiving mechanism 6.
Figure 3 is an oblique perspective view from above of the front region 34 of the tool 2 from Figures 1 and 2. In this view, the punch mechanism 4, which is fitted on the front region 34 of the upper leg 12 of the lever arm 8, is shown clearly. The receiving mechanism 6 is located below the front region 34 having the punch mechanism 4. In the region of the upper side of the receiving mechanism 6 facing the viewer, a receiving passageway 26 is shown, through which the vertical leg 30 of the ejector 20 passes upon passing through the receiving mechanism 6 when the receiving mechanism 6 is lowered, i.e. moved away from the punch mechanism 4. The cable channels 28 includes the convexities, formed in the side walls for clamping the cable 32, are shown in the region of the upper side of the receiving mechanism 6, facing the viewer and in the rear region facing away from the viewer.

Claims

1. A tool (2) for producing insulation displacement connections and/or crimp connections comprising at least one punch mechanism (4), fitted on a punch lever arm (8), at least one receiving mechanism (6), fitted on a receiving lever arm (10), for receiving at least one contact element, wherein the punch lever arm (8) and the receiving lever arm (10) are moveable relative to one another in such a way that the receiving mechanism (6) is movable towards the punch mechanism (4) in at least one working stroke in order to produce a connection between an electrically conductive wire arranged at least in part between the receiving mechanism (6) and the punch mechanism (4), and at least one contact element arranged on the receiving mechanism (6), the receiving mechanism (6) being movable away from the punch mechanism (4) in a return stroke; wherein at least one ejector (20), which is arranged in a fixed manner on the punch lever arm (8), is fitted on the punch lever arm (8) in such a way that at least a part of the ejector (20) presses against the contact element from the side of the contact element remote from the punch mechanism (4) in order to release the contact element from the receiving mechanism (6) when the receiving mechanism (6) is moved away from the punch mechanism (4).
2. The tool (2) according to claim 1, wherein the at least one ejector (20) is arranged in such a way that at least a part of the ejector (20) is guided laterally towards the receiving mechanism (6) in order to press against the contact element when the receiving mechanism (6) is moved away from the punch mechanism (4).
3. The tool (2) according to claim 1, wherein the receiving mechanism (6) comprises at least one receiving passageway (26) through which the at least one part of the at least one ejector (20) can be guided in order to press against the contact element when the receiving mechanism (6) is moved away from the punch mechanism (4).
4. The tool (2) according to any one of the preceding claims, wherein the tool comprises an ejector (20) on the right and left sides respectively of the receiving mechanism (6).
5. The tool (2) according to any one of the preceding claims, wherein the receiving mechanism (6) comprises at least one cable channel (28) to the receiving mechanism (6) of at least one cable (32) containing at least one electrically conductive wire.
6. The tool (2) for producing insulation displacement connections and/or crimp connections comprising at least one receiving mechanism (6) for at least one contact element, at least one punch mechanism (4) and at least one cable channel (28) to the receiving mechanism (6) for at least one cable (32) containing at least one electrically conductive wire, in particular a tool (2) according to any one of claims 1 to 5, wherein the at least one cable channel (28) comprises at least one clamping device for clamping the at least one cable (32).
7. The tool (2) according to claim 6, wherein the clamping device is formed as at least one convexity in at least one side wall of the at least one cable channel (28).
8. The tool (2) according to any one of the preceding claims, wherein the receiving mechanism (6) is formed as an exchangeable die.
9. The tool (2) according to any one of the preceding claims, wherein the receiving mechanism (6) is formed so as to receive at least one connector comprising at least one contact element, and the ejector (20) is formed so as to release the at least one contact element by releasing the at least one connector from the receiving mechanism (6).
10. The tool (2) according to claim 9, wherein the connector comprises a plurality of contact elements.
11. The tool (2) according to any one of the preceding claims, wherein the tool (2) is formed as a mobile tool, in particular as hand-held pliers.
12. The tool (2) according to any one of the preceding claims, wherein the punch mechanism (4) and the receiving mechanism (6) are moveable relative to one another by user power.
13. The tool (2) according to any one of the preceding claims, wherein the punch mechanism (4) and the receiving mechanism (6) are moveable relative to one another electrically.
14. The tool (2) according to any one of the preceding claims, wherein the punch mechanism (4) and the receiving mechanism (6) are moveable relative to one another pneumatically.
15. The tool (2) according to any one of the preceding claims, which additionally comprises a ratchet which slips when a predetermined distance between the punch mechanism (4) and the receiving mechanism (6) is exceeded in order to limit the force exerted on the connector to a predetermined level of force.
16. The tool (2) according to any one of the preceding claims, which additionally comprises a ratchet which slips when a predetermined distance between the punch mechanism (4) and the receiving mechanism (6) is not attained in order to limit the force exerted on the connector.
17. A method of producing insulation displacement connections and/or crimp connections with a tool (2), which comprises at least one punch mechanism (4) fitted on a punch lever arm (8), at least one receiving mechanism (6), fitted on a receiving lever arm (10), for receiving at least one contact element and at least one ejector (20) which is fitted in a fixed manner on the punch lever arm (8), wherein the punch lever arm (8) and the receiving lever arm (10) are moved relative to one another in such a way that the receiving mechanism (6) is moved towards the punch mechanism (4) in a working stroke in order to produce a connection between an electrically conductive wire, which is arranged at least in part between the receiving mechanism (6) and the punch mechanism (4), and at least one contact element arranged on the receiving mechanism (6), the receiving mechanism (6)being moved away from the punch mechanism (4) in a return stroke; and wherein at least a part of the ejector (20) presses against the contact element from the side remote from the punch mechanism (4) in order to release the contact element from the receiving mechanism (6) when the receiving mechanism (6) is moved away from the punch mechanism (4).
18. The method according to claim 17, wherein the receiving mechanism (6) is formed so as to receive at least one connector comprising at least one contact element, the receiving mechanism (6) is moved towards the punch mechanism (4) in a working stroke in order to produce a connection between an electrically conductive wire, which is arranged at least in part between the receiving mechanism (6) and the punch mechanism (4), and at least one contact element present in the connector arranged on the receiving mechanism (6), and wherein the ejector (20) releases the at least one connector from the receiving mechanism (6) when the punch mechanism (4) is moved away from the receiving mechanism (6).
PCT/EP2009/050913 2008-02-01 2009-01-28 Tool for producing insulation displacement connections and/or crimp connections WO2009095391A2 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102008007183.8 2008-02-01
DE200810007183 DE102008007183B4 (en) 2008-02-01 2008-02-01 Tool for the production of insulation displacement and / or crimp connections

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WO2009095391A2 true WO2009095391A2 (en) 2009-08-06
WO2009095391A3 WO2009095391A3 (en) 2009-10-01

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102016114344B3 (en) * 2016-08-03 2017-08-31 Phoenix Contact Gmbh & Co. Kg IDC tool and IDC terminal

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US4160317A (en) * 1978-09-05 1979-07-10 Amp Incorporated Applicator tool with multiple chamber magazine
CH681754A5 (en) * 1991-03-28 1993-05-14 Ernst Heppler Cable stripping tool for screened coaxial cables - has cutting head halves incorporating spaced cutting devices with cutting edges used to separate inner and outer insulation.
US6256871B1 (en) * 1999-10-29 2001-07-10 Molex Incorporated Crimping apparatus for electrical connectors
EP1422793A1 (en) * 2002-11-19 2004-05-26 Tyco Electronics AMP Espanola S.A. Cable terminating apparatus and method

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US4393580A (en) * 1981-02-05 1983-07-19 Amp Incorporated One step applicator tool
SE8901128D0 (en) * 1989-03-31 1989-03-31 Aweidmueller Gmbh & Co C TOOL FOR APPLICATION OF CONTACTS
US5152051A (en) * 1991-04-29 1992-10-06 Amp Incorporated Tool for terminating an electrical cable to a connector
JPH11185923A (en) * 1997-10-17 1999-07-09 Three Suton:Kk Manual pressure-contact tool

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Publication number Priority date Publication date Assignee Title
US3886642A (en) * 1974-07-24 1975-06-03 Nat Telephone Supply Co Method and apparatus for connecting wires
US4160317A (en) * 1978-09-05 1979-07-10 Amp Incorporated Applicator tool with multiple chamber magazine
CH681754A5 (en) * 1991-03-28 1993-05-14 Ernst Heppler Cable stripping tool for screened coaxial cables - has cutting head halves incorporating spaced cutting devices with cutting edges used to separate inner and outer insulation.
US6256871B1 (en) * 1999-10-29 2001-07-10 Molex Incorporated Crimping apparatus for electrical connectors
EP1422793A1 (en) * 2002-11-19 2004-05-26 Tyco Electronics AMP Espanola S.A. Cable terminating apparatus and method

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DE102008007183A1 (en) 2009-08-06
DE102008007183B4 (en) 2011-01-05
WO2009095391A3 (en) 2009-10-01

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