Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
  • B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
  • B25B7/00—Pliers; Other hand-held gripping tools with jaws on pivoted limbs; Details applicable generally to pivoted-limb hand tools
  • B25B7/06—Joints
  • B25B7/10—Joints with adjustable fulcrum

Definitions

• the invention initially relates to a pair of pliers with two pliers legs crossing each other in a hinge pin, one of which is movable and the other is stationary, with handle sections on one side of the hinge pin and interacting as a pliers jaw on the other side of the hinge pin Jaws are formed, wherein the fixed pliers leg further has a longitudinal slot with a toothing and the hinge pin located in a receptacle from a Veryakungsein attacked against the force of the spring around its longitudinal axis in a release position and can be moved with the help of a Sperrvor jump, which with a locking part the recording cooperates, is held in the direction of the longitudinal axis.
• the invention further relates to a pair of pliers with two pliers legs crossing each other in a hinge pin, one of which is movable and the other is stationary, with grip sections on one side of the hinge pin and formed as jaws of the hinge pin as a pincer jaw togetherwir kende jaws are, furthermore, the stationary pliers leg has a longitudinal slot with a toothing and the hinge pin located in a receptacle can be moved from a toothed engagement against the force of a spring about its longitudinal axis into a release position.
• the invention relates to a pair of pliers with a movable pliers leg and a fixed pliers leg, the fixed pliers leg having a firmly connected jaw jaw, wherein further by means of the movable pliers leg one on the fixed pliers leg movable jaw jaw is guided displaceable, with the addition of the movable pliers legs to change the opening width of the jaws on a pin provided on this pliers leg in the area of its axis of rotation, which has a locking tooth, cooperates with a toothed longitudinal slot in a releasable form fit, and where, in the case of the movable pliers leg, the movable jaw jaw interacts in a lever-like manner via an engagement projection provided on this pliers leg, which engages in a recess provided on the movable jaw jaw.
• Pliers of the type in question are known in various configurations, for example in the form of pipe pliers or water pump pliers, and also in the form of so-called pliers wrenches or screw pliers.
• To change the jaw width of the pliers it is known in this context to lift the toothing engagement between the toothing in the area of the longitudinal slot and the hinge pin solely as a result of a pivot displacement about its geometric longitudinal axis and against the action of the spring, so as to rela a sliding displacement of the movable pliers leg tiv to the fixed pliers legs along the longitudinal slot to enable union.
• the cancellation of the toothing engagement can be achieved due to a pivoting displacement of the hinge pin about its longitudinal axis.
• a pair of pliers designed in this way is known, for example, from EP 3313619 A1 or from EP 2596912 A1.
• the hinge pin can be secured in the opposite direction to an assembly-plugging direction of the hinge pin by a collar which can be arranged on the hinge pin after assembly and which forms the locking projection and which interacts with a facing outer surface of the movable pliers arm surrounding the receptacle .
• the one surrounding the recording The area of the pliers leg forms the locking part, which prevents the hinge pin from being displaced in the direction of its longitudinal axis.
• the collar forming the locking projection can be fastened separately to the hinge pin, for example screw-fastened or riveted. Viewed over its circumference, the collar protrudes at least partially over the outer contour of the hinge pin in the area of its counter-toothing.
• a pair of pliers with a jaw jaw guided on the fixed pliers leg is known for example from DE 3929323 C2.
• Such pliers can be referred to as so-called pliers wrenches.
• the invention has the object of improving a pair of pliers of the type in question while still being highly user-friendly, in particular with regard to an easy-to-use assembly of the hinge pin.
• the object of the invention is to make such pliers easy to use.
• a possible solution to the problem is given according to a first inventive idea in a pair of pliers, in which it is important that the locking projection and the locking part are designed to overflow each other in the course of assembly, the effect of the spring being overcome.
• a favorable assembly of the hinge pin is possible. This can be brought into an orientation relative to the receptacle for assembly, in which an overflow of the locking projection and locking part is possible.
• the locking projection on the bolt side can for example se in the course of a plugging process in which the hinge bolt essentially chen is used along its longitudinal axis, overrun the pliers leg-side locking part starting from a leg outer position to a schenkelinne ren position.
• the effect of the spring is canceled, for example by specifically holding the spring in a tensioned position so that it cannot develop its force.
• the hinge pin can then be brought into the holding position acting in the direction of the longitudinal axis, either directly or by user intervention in which the hinge pin is pivoted, for example, about its longitudinal axis.
• This pivoting-back displacement can be brought about in an advantageous manner by releasing the spring action.
• the locking projection can, as is also preferred, advantageously be part of the hinge pin directly, and furthermore, as further preferred, be formed in one piece and, if necessary, made of one material with the hinge pin and its counter-toothing.
• a further solution to the problem can be achieved according to a further concept of the invention in that the receptacle is formed with a base on the movable pliers leg.
• the receptacle is accordingly preferably designed to be closed on one side in the axial direction.
• the axial depth of the receptacle is limited, so that the base can also form an axial displacement hinder for the hinge pin in one axial direction.
• the proposed bottom design of the receptacle means that the relevant leg section of the movable pliers leg is reduced. closed, which can facilitate the cleaning and care of the pliers, if necessary, but also an assembly of the hinge pin.
• the object can be achieved in that a locking projection is formed on the movable pliers leg, the pivoting position of the movable pliers leg with the in a predetermined Ver movable jaw jaw is engaged and thereby counteracts a possible evasive movement of the movable jaw jaw relative to the movable pliers legs.
• the predetermined pivoting position of the movable pliers legs relative to each other in which the previously described fuse is achieved due to the interaction of the locking projection with the movable jaw jaw, can, for example, in a neutralization position of the toothing of the hinge pin with the longitudinal slot and / or in a position in which the The engagement of the engagement projection in the recess provided in the movable jaw jaw is canceled.
• the movable jaw jaw thus always remains captive on the fixed tong limb regardless of the pivoting position of the movable tong limb relative to the stationary tong limb.
• a solution to the problem can also be given, for example, in that the locking projection and the locking part are designed to overflow against each other in the course of assembly, the action of the spring being overcome and the receptacle having a bottom on the movable pliers legs is trained.
• the spring can prevent the assembly position from being reached when the pliers are installed, so that dismantling of the hinge pin is not possible during normal operation or normal handling of the pliers. Even such a position is preferred that would allow the dismantling of the hinge pin, with normal use of the pliers, it is not enough.
• a separate tool is preferably required, with which the hinge pin would have to be acted upon in order to overcome the spring force.
• the receptacle can also be formed in the movable pliers leg.
• the movable pliers leg can include the fixed pliers leg in the region of the longitudinal slot like a fork. In the case of such a fork-shaped configuration of the movable pliers leg, the formation of the receptacle can only be provided in the area of a fork leg.
• the locking projection may, in particular in the assembly position of the hinge bolt, with a the fixed pliers limb facing in inner face of the receptacle Z usammen sculpture, further in particular with respect to a bracket of the hinge pin in the direction of the longitudinal axis.
• the locking part on the receiving side accordingly offers a locking surface for the locking projection so that the hinge pin after assembly in the direction of the longitudinal axis, in particular against the mounting direction is caught.
• the surface of the locking part that interacts with the locking projection is preferably in a hidden position, at least in an area that is not or not usually accessible during normal use of the pliers.
• the receptacle can have an insertion opening with an expansion area.
• This insertion opening is preferably part of the receptacle.
• the locking projection provided on the bolt side can, as further preferred, be guided through the widening area of the insertion opening to finally overflow the locking part on the receiving side.
• the locking projection can be adapted with respect to its cross-sectional area viewed transversely to the longitudinal axis to the opening area of the widened area viewed in the same sectional plane. It can also result in a kind of keyhole training, the keyhole being formed by the insertion opening with the extension area and the key shaft with the key bit by the hinge pin with the locking projection.
• the hinge pin is to be arranged in a selected rotational position with respect to its longitudinal axis and the extent of the longitudinal slot.
• This rotational position of the hinge pin ent preferably does not correspond to a usual active position of the hinge pin when using the pliers. Rather, the selected rotational position is preferably provided solely and exclusively for mounting the hinge pin, but optionally also for a specifically intended dismantling of the hinge pin.
• the hinge pin can have an elastic restoring element for pretensioning the hinge pin in the meshing.
• the elastic restoring element can be a spring element arranged on the hinge pin, which acts directly or indirectly against a support surface, preferably of the fixed leg.
• the support surface can be provided in the area of the longitudinal slot, more preferably essentially opposite the toothing on the slot side.
• the elastic restoring element can have a compression spring, for example a cylinder compression spring, which acts on a separate support element, for example in the form of a ball.
• the toothing engagement is to be canceled by moving the hinge pin about its longitudinal axis. This pivoting movement of the hinge pin takes place against the restoring force of the elastic restoring element.
• the elastic return element can be moved in the course of passing through the pivot pin with its locking projection through the insertion opening with the provided expansion area in the rotational position of the pivot pin selected for this purpose in a certain compression position.
• This can for example be a maximum possible compression position of the remindstellele element.
• this particular compression position cannot be achieved with normal use of the pliers.
• the selected rotational position of the hinge pin suitable for passing through the insertion opening can also preferably not be reached. A cancellation of the This counteracts the latching of the hinge pin on the pliers legs.
• the hinge pin can be accommodated in an only partially circular section of the receptacle, which has a driving shoulder deviating from a circular course, for interaction with a driving flank of the hinge pin, the hinge pin in a circular recess of the receptacle is rotatably guided and a circular line is predetermined by the circular recess, the driving shoulder protruding radially inward with respect to the circular line and the driving flank is also formed within the circular line.
• the driving shoulder of the hinge pin can extend within a preferably circular contour of the same - viewed in a plane running perpendicular to the pin axis.
• the rotational displacement of the hinge pin in order to cancel the toothing can preferably only be carried out deliberately. To do this, the jaws of the pliers are opened beyond the usual level by means of the movable pliers leg. The disengagement of the meshing is achieved solely by corresponding pivoting or rotational displacement of the pliers legs relative to one another. No further manual intervention in the area of the hinge pin is necessary by the user.
• the proposed design of the hinge pin also has a singular significance on its own and independently of the design of the pliers. With normal handling, the hinge pin can finally be moved around its longitudinal axis, but not along the longitudinal axis.
• a jaw of the forceps can be designed to be movable relative to a forceps leg, for example to the stationary forceps leg.
• the pliers can also be designed in the manner of a pliers wrench.
• the movable jaw jaw can alswei sen an engagement flank which is acted upon by the locking projection in the predetermined pivoting position of the movable pliers leg.
• the engagement flank is preferably arranged in such a way that, in cooperation with the locking projection, it prevents, in particular, a displacement of the movable jaw relative to the movable pliers limb in and / or counter to the direction of the fixed jaw.
• the engagement flank can be part of a locking recess in which the locking projection rests in the predetermined pivoting position of the movable pliers leg.
• the predetermined pivoting position of the movable pliers leg relative to the fixed pliers leg can also correspond to the open position of the pliers.
• This opening position of the pliers defining the predetermined pivoting position can furthermore be a position of the movable pliers leg relative to the fixed pliers leg, in which the toothing engagement between Hinge pin and longitudinal slot is achieved so that a sliding displacement of the movable pliers leg can be carried out together with the movable jaw along the longitudinal slot to change the opening width of the jaws.
• Fig. 1 is a pair of pliers of the type in question in a perspective Dar position, relating to a first embodiment
• FIG. 2 shows the pliers in a side view, relating to a pliers jaw closed position
• FIG. 3 shows the view according to arrow III in FIG. 2;
• Fig. 5 a hinge pin of the pliers with a molded locking device
• FIG. 6 shows the hinge pin according to FIG. 5 in a further perspective illustration
• 7 shows a further perspective illustration of the hinge pin
• FIG. 8 shows the section along the line VIII-VIII in FIG. 3, but regarding an intermediate position in the course of a hinge pin assembly
• FIG. 9 shows a representation following on from FIG. 8, relating to a position after Vollen tion of the hinge pin assembly
• Fig. 10 shows the section along the line X-X in Figure 2 through the hinge pin and a leg-side receptacle relating to the operational assembly position of the hinge pin; 11 shows the section along the line XI-XI in FIG. 3, the pincer jaws
• FIG. 12 shows a sectional view according to FIG. 11, relating to the open position of the pliers jaws
• FIG. 13 shows a sectional view corresponding to FIG. 12, but relating to a pivoting position of the hinge pin for width adjustment of the jaws of the pliers;
• FIG. 14 shows a sectional view according to FIG. 9, but relating to the position according to FIG. 13;
• 15 shows the perspective illustration of a pair of pliers, relating to a second exemplary embodiment
• 16 shows the pliers according to FIG. 15 in a side view, relating to a pliers jaw closed position
• FIG. 17 shows the view according to arrow XVII in FIG. 16;
• FIG. 19 shows the section XIX-XIX in FIG. 17, but relating to an intermediate position in the course of a hinge pin assembly
• FIG. 20 shows a representation following on from FIG. 19, relating to a position after completion of the assembly of the hinge pin
• FIG. 21 shows the section L along the line XXI-XXI in FIG. 17, relating to the jaw closed position
• FIG. 22 shows a sectional illustration according to FIG. 21, relating to the open position of the pliers jaws
• FIG. 23 shows a sectional view corresponding to FIG. 22, but relating to a pivoting position of the hinge pin for width adjustment of the jaws of the pliers;
• FIG. 24 shows a sectional illustration according to FIG. 20, but relating to the position according to FIG. 23;
• the pliers 1 has two pliers legs 2 and 3 which cross in a hinge pin 4, the pliers leg 2 being described below as a fixed pliers leg and the pliers leg 3 as a movable pliers leg.
• the pliers legs 2 and 3 of the pliers 1 of the first embodiment form on one side of the hinge pin 4 Griffab sections 5 and 6 and on the other side of the hinge pin 4, preferably in one piece and of the same material with the handle sections 5 and 6 formed jaws 7 and 8, which limit a pincer mouth M.
• leg portion 12 of the fixed pliers leg 2 can be designed in the manner of a bearing plate, with two guide grooves 40 each machined on the outer surfaces, which preferably run symmetrically to a pliers central axis.
• the fork-like bearing plate of the fixed pliers leg 2 comprising movable pliers legs 3 at each fork section has a substantially radial to the longitudinal axis se x protruding engagement projection 43 which engages in a preferably contour-adapted recess 44 of the jaw jaw 8 in the area of the guide section 42.
• a pivoting movement of the movable pliers leg 3 is converted into a linear displacement of the movable jaw jaw 8 along the guide groove 40 via the interaction of the engagement projection 43 and the recess 44. Via this pivoting displacement of the movable pliers leg 3, the movable jaw jaw 8 can thus be moved in the direction of a pliers open position or in the direction of a pliers open position.
• the pliers leg 3 is rotatable about the geometrical longitudinal axis x of the pivot pin 4 relative to the pliers leg 2, to change the width of the pliers mouth M, which is set between the jaws 7 and 8.
• the stationary pliers leg 2 has a longitudinal slot 9 in the intersection area of the pliers legs 2 and 3.
• the longitudinal slot 9 extends essentially parallel to the guide grooves 40.
• this longitudinal slot 9 is penetrated by the hinge pin 4, the geometric longitudinal axis x of which is preferred perpendicular ver runs to a spanned by the circumferential edge contour of the longitudinal slot 9 plane.
• the movable pliers limb 3 can, as is also preferred, be fork-shaped in the intersection area of the pliers limbs 2 and 3, pointing parallel and spaced apart fork sections 10 and 11, which the, the longitudinal slot 9 having the limb section 12 of the fixed pliers limb 2 flank.
• the fixed pincer arm 11 is inserted through the fork portion 13 of the movable pincer arm 3 ge.
• the hinge pin 4 is rotatably supported in the fork sections 10 and 11 of the movable pliers arm 3.
• One fork section 10 can be provided with an insertion opening 27 that is circular in a plan according to FIGS jump 16 are part of a receptacle 14 for the hinge pin 4.
• the hinge pin 4 In the direction of the longitudinal axis x, the hinge pin 4 is held by a rear grip.
• a bolted locking projection SV interacts with a locking part ST of the receptacle 14.
• the locking projection SV can be designed in the manner of a finger-like projection, preferably formed in one piece and made of one material with the hinge pin 4, which extends essentially in the radial direction with respect to the longitudinal axis x.
• the locking part ST is preferably formed by the movable pliers leg 3, more preferably by the fork section 10 having the insertion opening 27 Leg portion 12 facing, the insertion opening 27 surrounding pliers be given leg surface.
• the hinge pin 4 is caught in the usual position of use between the fork sections 10 and 11 of the movable pliers leg 3 in the axial direction, due to a support in the area of the centering projection 16 on the one hand and a support of the locking projection SV on the locking part ST or on the facing inner wall of the fork section 10 on the other hand.
• the hinge pin 4 can have an elongated support formation 16 in a region which penetrates the longitudinal slot 9 in the tong arm 2 when the tongs 1 are used normally, in particular in a cross-sectional plane perpendicular to the longitudinal axis x. In the radial direction can protrude over this support formation 16 outwardly facing and axially aligned locking teeth 17 to interact with a toothing 19 formed on an associated Llank 18 of the longitudinal slot 9 Sliding fixation of the movable pliers leg 3 with respect to the pliers leg 2 is achieved.
• a bore 20 is also provided on the support formation 16, in which an elastic restoring element 21 is held.
• This restoring element 21 preferably has a leather 22 which, in the usual position of use, over a ball 25 which is possibly captive in the bore 20 and protrudes over the surface 24 of the support formation 16 that has the bore opening, against the flank 18 provided with the toothing 19 opposite edge 23 acts.
• a support of the toothing engagement between the locking teeth 14 of the hinge pin 4 and the toothing 19 in the region of the longitudinal slot 9 is achieved.
• the spring 22 can for example be a cylinder compression spring.
• the support formation 16 of the hinge pin 4 can carry a circular disk-shaped collar section 26, having a thickness viewed in the direction of extension of the longitudinal axis x, which can essentially correspond to the material thickness of the fork section 10 viewed in the same direction. With the collar section 26, the hinge pin 4 is guided in the usual use position in the essentially diameter-adapted insertion opening 27 in the fork section 10 so that it can rotate about the longitudinal axis x.
• the support formation 16 has essentially diametrically opposite circular sections 28, the dimensions of which correspond to the radii of the collar section 26 related to the longitudinal axis x.
• the circular sections 28 are connected to one another in plan essentially via straight driving flanks 29 and 30.
• the ratchet teeth 17 are formed on the area of the support formation 16 penetrating the longitudinal slot 9. These occur freely over the surface of the driving flank 29.
• the bore 20 is preferably provided for receiving the restoring element 21 to be composed of the spring 22 and the ball 25.
• the finger-like, radially protruding locking projection SV is formed in the area of a circular segment 28 connecting the driving flanks 29 and 30 (compare in particular FIGS. 5 to 7).
• the locking projection SV preferably protrudes beyond the plate-like collar section 26.
• the hinge pin 4 preferably with the exception of the locking projection SV, is formed within an imaginary circular cylinder that accommodates the diameter of the collar section 26.
• the locking projection SV preferably protrudes in the radial direction with an overhang which can correspond to about a third to a fifth, more preferably about a quarter of the radius of the imaginary circular cylinder, beyond this circular cylinder or beyond the collar section 26.
• the assembly of the hinge pin 4 for the articulated connection of the pliers legs 2 and 3 is preferably done without tools due to mutual overflow of locking part ST and locking projection SV.
• the receptacle 14 or the insertion opening 27 formed in the receptacle 14 has a slot-like, essentially radially extending widening area 35.
• This is preferably adapted to the bolt-side locking projection SV with regard to the contour and the dimensions in the radial and in the circumferential direction (see FIGS. 4 and 8 as well as 18 and 19).
• the extension area 35 can be traversed by the Sperrvor jump SV in the direction of the longitudinal axis x.
• the hinge pin 4 is first aligned about its longitudinal axis x in a selected rotational position so that its locking projection SV overlaps the extension area 35.
• an alignment of the movable pliers leg 3 relative to the fixed pliers leg 2 having the longitudinal slot 9 is vorzuneh men, which enables the hinge pin 4 to be pushed through the insertion opening 27 with the expansion area 35 and then through the longitudinal slot 9.
• the elastic restoring element 21 causes a pivoting displacement of the hinge pin 4 in the direction of the toothing engagement, with the locking projection being supported on the flank 18 of the longitudinal slot 9 SV leaves the widened area 35 of the insertion opening 26 and steps in front of the area surrounding the insertion opening 26 (blocking part ST) in a blocking manner (cf. FIGS. 9 and 20). There is quasi a latching at the end of the insertion projection along the longitudinal axis x.
• the assembly is accordingly preferably carried out according to the keyhole principle.
• the end face 31 of the hinge pin 4 facing away from the collar section 26 can be aligned with the surface of the fork section 11 having the centering projection 15 which is remote from the pliers leg 2.
• This bolt end face 31 is preferably provided with a central, bore-like indentation 32 which receives the longitudinal axis x and in which the centering projection 15 is seated when the pliers 1 is normally in use.
• the locking projection SV and the locking teeth 17 extend starting from the collar section 26 preferably only over a partial length of the hinge pin 4 viewed in the direction of the longitudinal axis x, so that an end region which cooperates with a recess 33 surrounding the centering projection 15 and has the depression 32 of the hinge pin 4 is limited solely by the driving flanks 29 and 30 and the circular segments 28.
• the recess 33 is designed to be open towards the leg section 12 and, with reference to a floor plan of the recess 33, for example according to FIG. 11, can have a circular contour over approximately 270 degrees, with a center point lying on the longitudinal axis x.
• the circular line K of this contour preferably has the same or approximately the same diameter as the insertion opening 27 of the receptacle 14. Over the remaining approximately 90 degrees, the recess forms a radially inwardly pointing elevation 37, which in particular in an area facing the driving flank 29 is essentially a straight driving shoulder 34 forms.
• the leg wall which axially outwardly overlaps the recess 33 forms a base 38 of the receptacle 14.
• the receptacle is correspondingly me 14 only accessible from one side (fork section 10 with insertion opening 27).
• the arrangement of the elevation 37 allows a relative swivel displacement of the pliers leg 3 to the pliers leg 2.
• the hinge pin 4 is stationary in the usual pliers use, so that the pliers leg 3 in the course of the pivoting movement in the pliers jaw opening position a (overflowable)
• the stop is limited by the driving shoulder 34 stepping against the driving flank 29 of the hinge pin 4 (see FIGS. 12 and 22, respectively).
• a pivoting displacement of the pliers leg 3 relative to the stationary pliers leg 2 about the longitudinal axis x of the pivot pin 4 can be achieved.
• the jaws 7 and 8 can be pivoted from a pincer-jaw-closed position (for example according to FIGS. 1 to 3 and 9 to 11 or 20 and 21) into a pincer-open position according to FIGS. 12 and 22 and vice versa.
• the closed position of the pliers jaws is preferably limited to a stop, for which purpose the recess 33 in the area of the elevation 37 forming the driving shoulder 34 can have a further, circumferentially opposite to the driving shoulder 34, possibly a stop shoulder 36 forming shoulder. Against this can ge in the jaws closed position, if necessary, the driving flank 29 of the hinge pin 4 occur stop-limiting. Preference is given to limiting the stop of the closed position by striking a jaw shoulder 39 connecting the fork sections 10 and 11 in the fork area 13 on the facing narrow surface of the leg end. Section 12 of the fixed pliers leg 2 given (see Figures 11 and 21 respectively).
• the joint pin 4 is dragged along rotating about the axis of rotation x via the entrainment formation 30 while resting on the entrainment counter formation 31, which counter to the action of the spring 18 with partial immersion of the ball 19 in the Boh tion 17 a pivoting of the ratchet teeth 17 from the engaged position to the toothing 19 of the longitudinal slot 9 leads.
• the movable pliers leg 3 can be displaced in this pivoting position along the longitudinal slot 9 to change the jaw width of the pliers.
• the rotational displacement of the pliers leg 3 beyond the open position of the pliers jaws in order to cancel the meshing of the teeth can take place over an angle of approximately 15 to 30 degrees.
• the cancellation of the toothing engagement can preferably be brought about from any latching position along the longitudinal slot 9.
• the engaging projection 43 formed on the pliers leg tends to move out of the way Recess 44 of the movable jaw jaw 8 shifted out.
• the movable pincer arm 3 is further provided with a locking projection 45.
• the locking projection 45 which is oriented essentially radially to the longitudinal axis x, is also formed offset at a distance from the engaging projection 43 with respect to the longitudinal axis x of the hinge pin 4 in the opening pivoting direction of the movable pincer leg 3, with a locking flank 46 oriented essentially radially to the longitudinal axis x.
• the radially outer end of the locking flank 46 can merge into an outer contour 47 of the area of the movable pliers leg 3 that surrounds the insertion opening 27.
• the movable jaw 8 is provided in the direction of extent of the guide groove 40 at a distance from the recess 44 with a locking recess 48 which is essentially open at the edge in the direction of the movable pliers limb 3.
• This has a substantially transverse to the longitudinal extent of the guide groove 40 or transversely to the sliding displacement direction of the movable jaw 8 on the fixed pliers leg 2 aligned te engagement flank 49, which in the region of its end facing away from the longitudinal axis x of the hinge pin 4 preferably in a substantially circular section Contact edge 50 passes over.
• both the locking projection 45 and the corresponding locking recess 48 are provided only in one piece of the fork-shaped movable jaw 8 and of the movable plier leg 3 that overlap the bearing plate of the fixed pliers leg 2, more preferably on the also the insertion opening 27 for the hinge pin 4 having's kelseite.
• the locking projection 45 can enter the locking recess 48 of the movable jaw 8 and so on a displacement of the movable jaw 8 prevent relative to the movable pliers arm 3.
• the locking projection 45 with its locking flank 46 can optionally act in a stop-limiting manner against the engagement flank 49 of the locking recess 48 and / or the circular outer contour 47 with the contact flank 50 that is preferably contour-adapted for this purpose.
• a form-fit position that is adapted to the contour and essentially fills the locking recess 48 can result between the movable jaw jaw 8 and the movable pliers arm 3.
• the movable jaw jaw 8 can thus also be displaced in this predetermined pivoting position of the movable pliers limb 3 alone together with the movable pliers limb 3 along the guide groove 40 in order to change the jaw width.
• a pair of pliers which is characterized in that the locking projection SV and the locking part ST are designed to overrun one another in the course of assembly, the effect of the spring 22 being overcome.
• a pair of pliers which is characterized in that the receptacle 14 is formed with a bottom 38 on the movable pliers arm 3.
• a pair of pliers which is characterized in that the base 38 is formed integrally with the pliers leg 3.
• a pair of pliers which is characterized in that the spring 22 prevents the assembly position from being reached when the pliers 1 is installed.
• a pair of pliers which is characterized in that the receptacle 14 is formed in the movable pliers arm 3.
• a pair of pliers which is characterized in that the locking projection SV interacts with an inner surface of the receptacle 14 facing the stationary pliers leg 2.
• a pair of pliers which is characterized in that the receptacle 14 is a
• a pair of pliers which is characterized in that the expansion area 35 can be traversed by the locking projection SV.
• a pair of pliers which is characterized in that the hinge pin 4 is to be arranged in a selected rotational position with respect to its longitudinal axis x and the extent of the longitudinal slot 9 in order to pass through the insertion opening 27.
• a pair of pliers which is characterized in that the hinge pin 4 has an elastic restoring element 21 for pretensioning the toothing engagement.
• a pair of pliers which is characterized in that the elastic restoring element 21 is moved into a certain compression position in the course of the passage in the selected rotational position.
• a pair of pliers which is characterized in that the specific Einfe change position cannot be achieved with normal use of the pliers 1.
• a pair of pliers which is characterized in that the hinge pin 4 is received in an only partially circular section of the receptacle 14, which has a driving shoulder 34 deviating from a circular course, for interaction with a driving flank 29 of the hinge pin 4 , wherein the hinge pin 4 is rotatably guided in a circular recess 33 of the receptacle 14 and a circular line is given by the circular recess 33, the driving shoulder 34 protruding radially inward with respect to the circular line K and the driving flank 29 also within the Circular line K is formed, wherein, preferably, the recess 33 is circular in sections.
• a pair of pliers which is characterized in that a locking projection 45 is formed on the movable pliers limb 3, which engages in a pre-defined Ver pivoting position of the movable pliers limb 3 with the movable jaw jaw 8 and thereby a possible evasive movement the movable jaw 8 relative to the movable pliers leg 3 counteracts.
• a pair of pliers which is characterized in that the movable jaw jaw 8 has an engagement flank 49 which, in the predetermined pivoting position of the movable pliers leg 3, is struck by the locking projection 45.
• a pair of pliers which is characterized in that the engagement flank 49 is part of a locking recess 48 in which the locking projection 45 is in the predetermined pivoting position of the movable pliers leg 3 a.
• a pair of pliers which is characterized in that the predetermined pivoting position of the movable pliers leg 3 corresponds to the open position of the pliers 1.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Gripping Jigs, Holding Jigs, And Positioning Jigs (AREA)
• Hand Tools For Fitting Together And Separating, Or Other Hand Tools (AREA)

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• 2021
  • 2021-02-02 DE DE102021102330.0A patent/DE102021102330A1/de active Pending
  • 2021-02-09 EP EP21704745.5A patent/EP4103357A1/de active Pending
  • 2021-02-09 WO PCT/EP2021/053056 patent/WO2021160598A1/de active Search and Examination
  • 2021-02-09 CN CN202180013433.9A patent/CN115103740A/zh active Pending
  • 2021-02-09 US US17/797,813 patent/US20230074435A1/en active Pending
  • 2021-02-09 JP JP2022547673A patent/JP2023525948A/ja active Pending
  • 2021-02-17 TW TW110105278A patent/TW202135987A/zh unknown

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