EP2672584A1 - Outil de montage de connecteur solaire - Google Patents

Outil de montage de connecteur solaire Download PDF

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Publication number
EP2672584A1
EP2672584A1 EP12170886.1A EP12170886A EP2672584A1 EP 2672584 A1 EP2672584 A1 EP 2672584A1 EP 12170886 A EP12170886 A EP 12170886A EP 2672584 A1 EP2672584 A1 EP 2672584A1
Authority
EP
European Patent Office
Prior art keywords
assembly
housing
fixing unit
tool
solar connector
Prior art date
Legal status (The legal status 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 status listed.)
Withdrawn
Application number
EP12170886.1A
Other languages
German (de)
English (en)
Inventor
Kurt Battenfeld
Jan Lepa
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Wezag GmbH and Co KG
Original Assignee
Wezag GmbH Werkzeugfabrik
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 Wezag GmbH Werkzeugfabrik filed Critical Wezag GmbH Werkzeugfabrik
Priority to EP12170886.1A priority Critical patent/EP2672584A1/fr
Priority to EP20130170519 priority patent/EP2672585B1/fr
Publication of EP2672584A1 publication Critical patent/EP2672584A1/fr
Withdrawn legal-status Critical Current

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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
    • H01R43/20Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for assembling or disassembling contact members with insulating base, case or sleeve
    • H01R43/22Hand tools

Definitions

  • the invention relates to a solar connector mounting tool, which is used for mounting a solar connector.
  • a connector housing is moved relative to a module and pressed by means of this movement on the assembly.
  • the assembly is in this case formed with a cable and a connector pressed with the cable (and in some cases with a seal arranged on the cable).
  • This coupling head is coupled with a pull and reset rod which extends to and beyond a second end face of the solar connector mounting tool opposite the first end face of the housing such that the pull and reset rod projects out of the solar connector mounting tool.
  • the pull and reset rod in several stages of actuation with pivoting opening and closing movements of the hand lever be moved out of the housing more and more.
  • the invention has for its object to propose a method for operating a solar connector mounting tool, which is improved in particular with regard to the use of additional functions of the fixing unit.
  • the present invention is based initially on the finding that it is disadvantageous in the initially cited prior art that the mounting takes place by means of the known solar connector-pulling tool via a pulling movement through the connector housing.
  • This requires the use of a mandrel and the coupling of the same with the pull and reset rods required.
  • it is necessary for the known solar connector-Avemziehwerkmaschine that a housing in the longitudinal direction of the cable, the plug, the mandrel and the tension and return rod is completely penetrated.
  • the pull and reset rod cantilevered depending on the operation more or less out of the housing.
  • the known solar connector-Avemziehtechnikmaschinezeug is not readily suitable for the connection of a connector housing with an assembly which is formed with a seal arranged on the cable.
  • a solar connector assembly tool by means of which a connector housing moves in translation onto an assembly, in particular (pushed) is pushed.
  • the assembly is formed with a cable and a connector pressed with the cable, and in some cases with a seal disposed on the cable.
  • the seal if present should ensure that there is a seal between the connector housing and the cable.
  • the connector housing is moved in a mounting direction relative to the module.
  • the solar connector mounting tool according to the invention has a fixing unit which serves to hold the assembly during movement of the connector housing so that it (at least not constantly) is moved to the connector housing and the assembly forces can be generated.
  • the fixing unit is arranged in a housing of the solar connector mounting tool, so that it is at least partially covered and protected by the housing. In particular, the interaction between the assembly, such as the cable, and the fixing unit takes place here (different from the aforementioned prior art) within the housing.
  • the solar connector assembly tool has an actuating member.
  • the actuator is located outside the housing so that it can be manually operated by the user.
  • the fixing unit is transferred from a fixing position in which the assembly is held by the fixing unit in a released position, which is required, for example, after the successful assembly of connector housing and assembly, this assembled unit of the Remove solar connector assembly tool.
  • the actuating member by means of a manual operation or automated, for example. Via a spring, the fixing unit from a released position into a fixing position can be transferred. This is particularly necessary when an assembly is placed in the solar connector mounting tool and the operative connection between the fixing unit and the assembly for holding the same is to be made.
  • the fixing unit can be configured as desired for generating the interaction between assembly and fixing unit.
  • the fixing unit may positively engage the assembly to hold it.
  • the fixing unit is formed with in the direction of the fixing spring-loaded clamping jaws. Via the spring loading a clamping force is generated, which generates a frictional force between the jaws and the assembly, which forms a fixing and holding force for the assembly.
  • the jaws can be arbitrarily formed and arranged and guided.
  • the jaws have V-shaped clamping surfaces. Cables of the assembly with different diameters can enter the V of the clamping surfaces to different extents until the cable comes to rest on both legs of the V in a clamping manner.
  • a clamping action can be generated, so that the clamping force depends not only on the spring action, but also on the opening angle of the V.
  • two clamping jaws which are each provided with V-shaped clamping surfaces, are arranged offset in the mounting direction with respect to one another so that they can overlap when viewed in the assembly direction. The extent of the overlap depends on how large the diameter of the jammed between the clamping surfaces cable.
  • the two pairs form V-shaped clamping surfaces at least in a rough approximation, a parallelogram, wherein the length of the sides of the parallelogram is dependent on the diameter of the cable.
  • the drive connection can be formed with one or more drive connection stages, for example in the form of a geared connection.
  • the drive connection is formed with a drive connection stage, which converts a movement of the actuator transversely to the mounting direction in a movement of a drive body in the mounting direction. It has been found that it is particularly advantageous if the actuator is actuated manually transversely to the mounting direction, which may be particularly simple for the user. This movement is converted by the drive connection stage into a movement of a drive body in the mounting direction, which can then be passed on in any way to the jaws.
  • An embodiment encompassed by the invention for the transfer of this movement of the drive body in the mounting direction is the use of a further drive connection stage.
  • This further drive connection stage converts a movement of the drive body in the mounting direction in a displacement of both jaws transversely to the mounting direction.
  • any geared connections are used.
  • the drive connection stage with a drive element which is a kind of pin in the simplest case, form.
  • This drive element is guided in an inclined slot.
  • the drive connection stage, which converts a movement of the actuator transversely to the mounting direction in a movement of a drive body in the mounting direction the drive element, in particular the pin is moved with the actuator transversely to the mounting direction.
  • the slot is arranged in this case preferably in a plane which is spanned by the mounting direction and the actuating direction of the actuating member.
  • the slot is then inclined in this plane, both with respect to the mounting direction and the direction of actuation of the actuator.
  • the further drive connection stage which converts a movement of the drive body in the mounting direction in a displacement of both jaws transversely to the mounting direction
  • two drive elements for example two pins
  • two slots are arranged in a plane which is clamped by the mounting direction and the degree of freedom of the jaws, which is oriented transversely to the mounting direction.
  • the two slots are arranged in this case V-shaped, each slot is oriented inclined to both the mounting direction and to the degree of freedom of the jaws.
  • the fixing unit is rigidly supported in the mounting direction relative to the housing.
  • the fixing unit is supported by a spring element resiliently in the mounting direction relative to the housing.
  • Such elastic support can be used, for example, to cushions tips of the assembly forces, which could lead to damage to the connector housing or the assembly, are cushioned, so that a gradual buildup of assembly forces.
  • the spring element which supports the fixing unit resiliently in the mounting direction relative to the housing, biased. This has the consequence that for a mounting force which is smaller than the bias of the spring element, the fixing unit can not be moved. Only when the bias of the spring element is overcome, the fixing unit on the spring element resiliently "dodge" in the mounting direction.
  • the dimensioning of the biasing force can be arbitrary according to the requirements for the assembly process.
  • the movement of the fixing unit is visible after overcoming the bias of the spring element to the outside. This basically allows the user of the solar connector mounting tool to observe the mounting process and the acting mounting forces from the outside, giving the user of the solar connector mounting tool additional information about the assembly process.
  • the bias of the spring element is such a constructive predetermined or factory preset or set by the user that this corresponds to a defined desired assembly force. Then, when the user actuates the solar connector mounting tool and the user monitors the movement of the fixing unit, the deflection movement of the fixing unit indicates that the predetermined desired mounting force has been achieved by overcoming the bias of the spring member. This can be an indication of the proper completion of the assembly process. When the movement of the fixing unit occurs before the normal stroke of the solar connector mounting tool has passed, the movement of the fixing unit indicates that excessive mounting forces are applied before completion of the mounting operation, indicating an erroneous mounting, impermissible tolerance deviations of the components, the assembly or the connector housing, faulty arrangements of the components u. ⁇ . Can be evaluated.
  • Another alternative or cumulative function can be incorporated into the solar connector mounting tool when the fuser unit has an abutment surface against which the gasket or plug housing abuts, when the jaws are loosened and a test force is applied to the cable by the user
  • Instruction manual for the prior art solar connector mounting tool indicates the need to control the proper fit of the connector housing. For the prior art, this control must be done in unspecified manner outside the solar connector mounting tool. This control can be done according to the invention in the solar connector assembly tool, possibly immediately after completion of the assembly of the connector housing with the module, without the mounted solar connector ever has to be removed from the solar connector assembly tool. If the jaws are released, the assembled unit can be moved freely in the mounting direction.
  • the assembled unit with the seal or the plug housing is pulled to the contact surface of the fixing unit. If the test force applied by the user is increased such that the force exerted on the fixing unit overcomes the preload of the spring element over which the fixing unit is supported, the fixing unit is set in motion. The user sees this, with which the checking process can be completed. In this way it can be ensured that the assembled unit has been tested with a defined test force, which corresponds to the bias of the spring element. Only then can the assembled unit be removed from the solar connector mounting tool, but this reliably ensures that the assembled unit can be exposed during operation to a force that does not exceed the test load.
  • a further solution to the problem on which the invention is based is given by a method for operating a solar connector mounting tool, in particular of the previously described type.
  • a movement of the fixing unit is overcome by overcoming the biasing force by means of which the fixing unit is biased in the mounting direction via a spring element is, supervised.
  • the said monitoring takes place during the actuation of the solar connector assembly tool, for example via the same hand lever.
  • the onset of movement of the fixing unit overcoming the biasing force can be used as an indication that the assembly is finished with the connector housing with the solar connector mounted, so the predetermined by the biasing force desired or predetermined mounting force has been applied.
  • the path-controlled completion of the assembly would also be possible, so that the sliding and assembly process is ended for a defined feed of the solar connector assembly tool.
  • This wegenfine termination but could not account for any manufacturing tolerances or insertion inaccuracies of the components in the solar connector assembly tool, since in any case the completion of the assembly would be done for the same mounting path.
  • the "force control" of the completion of the assembly operation which is made possible according to the invention, allows a defined assembly force to be brought about independently of insertion inaccuracies or manufacturing tolerances, which may even apply to the assembly of assembled units of different types.
  • a test force is applied to the cable after the assembly of the plug housing with the assembly, but still mounted in the solar connector assembly tool mounted solar connector.
  • the test force pulls the assembled unit, namely the plug housing or the seal in the mounting direction against a contact surface of the fixing device.
  • the test force applied to the cable is increased until a movement of the fixing unit is detected by means of the monitoring, which can be regarded as an indication that a predetermined test force has been applied.
  • Fig. 1 shows exemplary and highly schematic of a solar connector 1.
  • a seal 5 is arranged at a defined distance 3 from a front side 4.
  • the seal 5 adjacent end portion of the cable 2 is stripped and crimped over a crimping tool with a plug 6.
  • a connector housing 9 is moved, pushed or pressed by means of a solar connector assembly tool 8.
  • a locking lug 10 behind the plug 6.
  • the seal 5 is compressed radially between the outer surface of the cable 2 and the stepped inner surface 99 of the plug housing 9. This is to ensure a seal of the solar connector 1.
  • via the compression of the seal 5 between the connector housing 9 and cable 2 is a recording of acting on the cable 2 during operation forces, whereby a "strain relief" can be done.
  • Fig. 2 shows the solar connector mounting tool 8 in a three-dimensional view.
  • the solar connector mounting tool 8 has a "gun-shaped” design, wherein the solid “pistol grip” forms a housing-fixed lever 11, while the “trigger” is extended according to the length of the hand lever 11 and forms a pivotable hand lever 12.
  • the “run” is an assembly axis 34 with a mounting direction 97, along which in the Solar connector assembly tool 8 moving, here pushing the plug housing 9 takes place on the assembly 7.
  • a housing 13 of the solar connector mounting tool 8 is formed with two half shells 14, 15, which form a dividing plane in a longitudinal center plane of the solar connector mounting tool 8.
  • the solar connector mounting tool 8 has a drive mechanism 16, a moving unit 17, a checking device 18, and a fixing unit 19.
  • the drive mechanism 16 is formed with the pivoted hand lever 12, which is rigidly connected within the housing 13 with a drive crank 20 ( Fig. 5 ).
  • the hand lever 12 in the connected to the drive crank 20 end portion has a flattening in the region of which the hand lever 12 via a connecting pin 21 and a pivot pin 22 fixedly connected to two on both sides of the flattened plate-shaped drive crank plates 23, 24 connected , which together form the drive crank 20.
  • the pivot pin 22 is pivotally mounted in the projecting from the drive crank plates 23, 24 end portions in the half-shells 14, 15 of the housing 13, so that the hand lever 12 with the drive crank 20 is pivotable about a predetermined by the pivot pin 22 pivot axis.
  • the other spring base of the tension spring 26 is supported under prestress on a bolt 27 which is mounted endwise in the half shells 14, 15 of the housing 13.
  • the spring bias of the tension spring 26 causes the hand lever 12 in Fig. 5 is applied with a torque counterclockwise, so that the hand lever 12 is acted upon by the hand lever 11 away.
  • Hand lever 12 and drive crank 20 together form a lever, wherein hand lever 12 on the one hand and drive crank 20 are arranged on opposite sides of the pivot pin 22 formed with the pivot bearing.
  • the toothed ram 29 The toothed segment 32 interacts with a guide carriage 33, which is displaceably guided in the direction of the mounting axis 34 with respect to the housing 13.
  • the guide carriage 33 has on its underside a rack-like toothing 34, whose longitudinal extension in the direction of the mounting axis 34 corresponds at least to the desired assembly stroke of the solar connector assembly tool 8.
  • the toothed segment 32 engages as a result of the loading by the spiral leg spring 31 in the toothing 35 a.
  • the tooth contours of the toothed segment 32 and the toothing 35 are selected such that the guide carriage 33 manually in Fig.
  • a pawl 37 via a pivot pin 38 is pivotally mounted relative to the housing 13.
  • spring element here a spiral leg spring 39
  • the pawl 37 with a toothed segment 40 of the same against the teeth 35 is applied.
  • the toothed ram 29 and the pawl 37 are in this case offset in the direction of the mounting axis 34, but arranged with a certain overlap, while these are offset transversely to the mounting axis and transversely to the longitudinal center plane.
  • the pawl 37 has an actuating pin 31, which passes through a guide slot 42 in the half shell 15 of the housing 13.
  • the pawl 37 in the in Fig. 5 shown upper end position, in which caused by the spiral leg spring 39, the toothed segment 40 can enter into operative connection with the toothing 35 in order to secure the once reached axial position of the guide carriage 33. If, however, the actuating pin 41 is pressed manually outside the housing 13 down, the toothed segment 40 of the pawl 37 is disengaged from the teeth 35, whereby the securing effect of Zwangsgesperres 36 can be canceled.
  • a driving pin 43 is at manual actuation of the actuating pin 41 down from the pawl 37 and the Ratchet 49 taken down, so that the toothed segment 32 of the toothed plunger 29 is disengaged from the teeth 35.
  • a spring 44 which pulls the guide carriage 33 against the mounting direction 97 to the rear, when both the toothed segment 32 and the toothed segment 40 is out of engagement with the toothing 35.
  • the movement unit 17, which can also be designed as a holding, drive and / or guide unit, is formed with the guide carriage 33.
  • the guide carriage 33 has in the mounting direction in the rear end region 97 has a U-shaped cross section, the base leg of a base plate 45 and the side legs of two parallel side plates 46, 47 are formed. While the side plate 46 is formed continuously over the entire length of the guide carriage 33, the side plate 47 ends approximately centrally, so that in the front end region of the guide carriage 33 has only an L-shaped cross section.
  • the base plate 45 is equipped with a suitable contour 48, which is adapted to the outer contour of the plug housing 9.
  • Fig. 6 shows a side view of the guide slide 33 shown here transparent with a holding body 49 disposed therein.
  • the holding body 49 is rotatably connected to a transversely extending to the mounting axis 34 pivot pin 50 which by aligned through holes 51, 52 of the side plates 46, 47 and parallel to the mounting axis 34 oriented guide slots 53, 54 passes through the housing 13 and in the end regions rotatably connected with wing nuts 55, 56 is connected ( Fig. 7 ).
  • Fig. 2 and 14 is the holding body 49 in a first operating position, in which the holding body 49 can hold a plug housing 9 with a first geometry.
  • This holding can consist in that the plug housing 9 rests against an end face 57 of the holding body 49 and is supported.
  • the end face 57 is suitably contoured to allow the holding of the plug housing 9, has a recess into which the plug housing 9 enters or the holding body 49 is "encompassed" by a sleeve-like plug housing 9.
  • the pivot pin 50 is eccentrically arranged in the holding body 49 such that the distance 59 of the end face 57 of the pivot axis of the pivot pin 50 is greater than the distance 60 of the pivot axis of the pivot pin 50 from the end face 58.
  • the difference of the distances 59, 60 correspond to the length of the extension 61, by which the male connector housing 9 is longer than the female connector housing 9. It is possible that the holding body 49 with its underside in the two operating positions on the base plate 45th is supported. Under certain circumstances, an additional backup of the operating positions of the holding body 49, for example by a locking or locking device. For this purpose, transversely to the mounting axis 34 in the holding body 49 (or in a side plate 46, 47), a locking element elastically supported, which engages in the operating positions in a corresponding recess of the side plate 46, 47 (or the holding body 49).
  • the change in the operating position of the holding body 49 can be caused by a rotation of the wing nuts 55, 56.
  • the pivot pin 50 has, together with the holding body 49 and the guide carriage 33 in the direction of the mounting axis 34 and by the guide slots 53, 54 predetermined (further) degree of freedom.
  • a manual loading of the wing nuts 55, 56 in the mounting direction 97 causes as a unit of the guide carriage 33 with holding body 49 and supported on the holding body 49 plug housing 9 are pushed forward in mounting direction 97, wherein the tooth segments 40, 32 ratchet along the teeth 35 move.
  • the fixing unit 19 is disposed in the front end portion of the "barrel" of the solar connector mounting tool 8 and serves to position and hold the preassembled assembly 7.
  • the fixing unit 19 is shown in different disassembly stages in particular in the Fig. 10 to 13 and 15, 16 and 20.
  • the fixing unit 19 is formed with a drive body 62, which is here plate-shaped, has only one degree of freedom parallel to the mounting axis 34 and is guided relative to a guide carriage 93. Via a spring element 63 of the guide carriage 93 is biased against the assembly direction 97 to the rear under bias against a stop 64 of the housing 13.
  • An actuator 65 here an operating wheel 66, transverse to the mounting axis 34 by applying an actuating force 67 in the direction of in Fig. 15 shown dissolved position to be actuated while the actuator 65 due to a spring without applying the actuating force 67 in the in Fig. 16 shown fixing position returns. With the movement of the actuating member 65 between the two mentioned positions, a groove body 68 is moved.
  • the groove body 68 has on its underside pointing to the drive body 62 a slot or a long groove 69, whose or its longitudinal axis both relative to the mounting axis 34 and with respect to the actuation direction of the actuating member 65 is inclined.
  • a sliding block or pin 70 engages a sliding block or pin 70, which extends from the drive body 62 upwards.
  • a drive connection stage 71 is formed, by means of which, in view of the inclined orientation of the slot 69, a movement of the groove body 68, caused by the actuation of the actuator 65, is converted transversely to the mounting axis 34 in a movement of the drive body 62 coaxial to the mounting axis 34.
  • the drive body 62 has two V-shaped elongated holes 72, 73, which extend symmetrically on both sides of the mounting axis 34.
  • the longitudinal axis of the elongated holes 72, 73 is both inclined relative to the mounting axis 34 and to the actuating direction of the actuator. Transverse to the mounting axis 34 are compared to the guide carriage two jaws 74, 75 out, which in particular in Fig. 11 can be seen.
  • the jaws 74, 75 each have V-shaped clamping surfaces 76, 77, which are arranged parallelogram in cross-section and clamp a arranged in the jaws 74, 75 cable 2 over the circumference, wherein the size of the parallelogram is dependent on the distance of the jaws 74, 75 from each other and thus of the diameter of the cable 2.
  • the jaws 74, 75 are offset in the direction of the mounting axis 34 to each other, so that they are guided past each other laterally.
  • the jaws 74, 75 each have on the bottom downwardly extending sliding blocks or pins 78, 79, with which this engage in the elongated holes 72, 73 of the drive body 62.
  • a further drive connection stage 80 is formed, which converts a movement of the drive body 62 in the direction of the mounting axis 34, which is caused by an actuation of the actuator 65 using the drive connection stage 71 a movement of the jaws 74, 75 transversely to the mounting axis 34, namely a movement of the jaws 74, 75 toward or away from each other.
  • the jaws 74, 75 acted upon by springs 81, 82 which are supported on the housing 13 to each other.
  • opening of the clamping jaws 74, 75 can take place such that a cable 2 is inserted into the fixing unit 19 from above.
  • the elimination of the actuating force 67 causes the operating position of the fixing unit 19 of Fig. 15 in Fig. 16 changed, which as a result of the springs 81, 82 and possibly another spring 83 which acts on the groove body 68 or the actuator 65, the jaws 74, 75 are closed until the clamping surfaces 76, 77 to the outer surface of the cable 2 to the plant come and pinch this and fix it.
  • the axial position of the assembly formed with the cable 2 7 is selected such that the seal 5 is in a predetermined axial position, which in particular rests against an end face of the guide carriage 93.
  • This inserted into the solar connector assembly tool 8 state of the assembly 7 is, for example, in Fig. 17 shown. In this position, the plug housing 9 on the one hand and the assembly 7 on the other hand are arranged coaxially with each other.
  • the checking device 18 is arranged between the moving unit 17 and the fixing unit 19.
  • the test device 18 is formed with a test specimen 84.
  • the test body 84 has an actuating button 85 and a hereby rigidly connected actuating plunger 86, which extends through a leading bore 87 of the half-shell 14 of the housing 13 therethrough.
  • a spring 88 which extends for the illustrated embodiment outside of the housing 13 around the actuating plunger 86 around and is caught and biased between the housing 13 and the operating knob, the test piece 84 is applied without manual application of the actuating knob 85 to the outside. Manually, the test piece 84 can be pressed transversely to the mounting axis 34 inwardly into the housing 13.
  • test body 84 is not rotated about its actuating axis.
  • test device 18 is in the in Fig. 8 and Fig. 17 shown rest position.
  • end portion of the actuating plunger 86 is formed in a rough approximation in the form of a horizontal U, so that this forms an open-edged recess 89, which is bounded by webs 90, 91.
  • the plug 6 is formed out of round, namely flattened, in particular as a result of the crimping process in the axial region where it interacts with the test body 84.
  • the plug 6 can enter the open-edged recess 89 as a result of its flattening, thus achieving a test position. If, however, the plug 6 is rotated relative to this correct orientation about the mounting axis 34, the plug 6 can not enter the open-edged recess 89, but rather collides with the recess 89 limiting webs 90, 91 of the actuating plunger 86.
  • the described fixing unit 19 is fixed in the direction of the mounting axis 34.
  • the fixing unit is formed with a guide carriage 93, on which in the direction of the mounting axis 34 slidably the drive body 62 is mounted and the other explained components of the fixing unit are supported.
  • the guide carriage 93 is pressed counter to the mounting direction 97 of the movement unit 17 by the prestressed spring element 63 against the stop 64. If a force is applied to the guide carriage 93 in the mounting direction 97, which is greater than the biasing force of the spring element 63, the guide carriage 93 can be released from the stop 64, so that the guide carriage 93 (and herewith the other components of the fixing unit 19) in Mounting direction 97 can move.
  • a coupling rod 94 passes between the actuator 65 and groove member 68 through a slot 95 of the half shell 15 of the housing 13, wherein the length of the elongated hole 95 at least the permissible movement of the guide carriage 93 corresponds.
  • the mounting movement may consist in that the plug housing 9 held by the movement unit 17 is pushed onto the assembly 7 held in the fixing unit 19. It is within the scope of the invention but quite possible that a fixing unit holds the connector housing 9, while a moving unit einschiebt the assembly held thereon 7 in the connector housing 9. Accordingly possible is the use of a drive mechanism by means of which a mounting or retraction takes place. For example, for a pulling motion, instead of a pressurized actuating tappet 86, an actuating tension member having an associated drive mechanism may be used Find employment. Preferably, however, no pulling takes place through the plug housing 9, as is the case for the initially described prior art.
  • the wing nuts 55, 56 represent an embodiment for the formation of an actuating member 102, by means of which both the idle stroke of the guide carriage 33 can be generated as well as the rotation of the holding body 49th
  • a spring element is formed with a plurality of partial spring elements.
  • the biasing force for the guide carriage 93 of the fixing unit 19 for the illustrated embodiments is generated with a plurality of parallel-acting part spring elements.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Manufacturing Of Electrical Connectors (AREA)
  • Connector Housings Or Holding Contact Members (AREA)
EP12170886.1A 2012-06-05 2012-06-05 Outil de montage de connecteur solaire Withdrawn EP2672584A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
EP12170886.1A EP2672584A1 (fr) 2012-06-05 2012-06-05 Outil de montage de connecteur solaire
EP20130170519 EP2672585B1 (fr) 2012-06-05 2013-06-04 Outil de montage de connecteur solaire

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP12170886.1A EP2672584A1 (fr) 2012-06-05 2012-06-05 Outil de montage de connecteur solaire

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EP2672584A1 true EP2672584A1 (fr) 2013-12-11

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EP12170886.1A Withdrawn EP2672584A1 (fr) 2012-06-05 2012-06-05 Outil de montage de connecteur solaire
EP20130170519 Not-in-force EP2672585B1 (fr) 2012-06-05 2013-06-04 Outil de montage de connecteur solaire

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EP20130170519 Not-in-force EP2672585B1 (fr) 2012-06-05 2013-06-04 Outil de montage de connecteur solaire

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2995424A1 (fr) 2014-09-11 2016-03-16 Wezag GmbH Werkzeugfabrik Pince
DE202014011110U1 (de) 2014-09-11 2017-11-29 Wezag Gmbh Werkzeugfabrik Handzange

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109390836B (zh) * 2018-11-23 2024-02-13 上海雷迪埃电子有限公司 弯式连接器的装配工装

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EP2224557A1 (fr) * 2009-02-25 2010-09-01 Research In Motion Limited Appareil de préhension de connecteur de câble

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EP2672585B1 (fr) 2015-04-08
EP2672585A2 (fr) 2013-12-11

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