EP0421107A2 - Pliers - Google Patents

Abstract

The invention relates to pliers (1) having two pliers jaws (8, 9) forming the pliers bit (M), of which one (fixed jaw 8) sits fixedly on one pliers limb (3) which, for coarse adjustment of the pliers bit (M), has a longitudinal slot guide (cutout 5) for the pivot (pivot pin 18) of the pliers limbs, and of which the other (movable jaw 9) is guided displaceably on the pliers limb (3) carrying the fixed jaw (8) and can be shifted, via a force-transmission point (27), between a shoulder (side arm 10) of the displaceable pliers jaw (9) and the jaw-side arm (joint peg 16) of the movable pliers limb (2), in order to close the pliers bit, and proposes, to obtain a solution which is advantageous in particular in terms of handling, that the force-transmission point (27), designed as a positive engagement between jaw-side arm (joint peg 16) and movable pliers jaw (9), is the junction point both for coarse longitudinal adjustment and for pliers bit closure between pliers limb (2) and movable jaw (9). <IMAGE>

Description

The invention relates to a pair of pliers with two pliers jaws forming the jaws, one of which sits firmly on a pliers leg, which has a longitudinal slot guide for the pliers leg pivot pin for coarse adjustment of the pliers jaw, and of which the other is slidably guided on the pliers leg carrying the fixed jaw and is displaceable via a force transmission point between a shoulder of the movable jaw and the jaw-side arm of the movable jaw leg for closing the jaws.

Such key pliers is known from US-PS 35 34 641, the movable jaw partially engages around the fixed leg and can be moved in a straight line on this. The movable pliers leg is rotatably supported by means of a pivot in a recess of the fixed leg which is provided with a toothing only on the side facing the pliers mouth. The pivot pin extends through a window of a mounting plate of the movable jaw that grips around the fixed leg on one side, this mounting plate being assigned to the side of the fixed leg that is opposite the movable pliers leg. The pliers leg forms a stop surface at the end opposite the handle part, in the region of the axis of rotation. When the pliers' legs are pressed together, this acts on a stop lug of the movable jaw and thus causes it to shift in the closing direction. In the area of the recess of the fixed leg, an engagement tooth is spring-mounted on the pivot, which is in positive engagement with the teeth of the recess, with a spring striving to hold the movable pliers leg in a basic position. Around the opening width to change the jaws, the movable pliers leg is moved counter to the actuating direction, which displaces the engagement tooth from the toothing. The stop nose of the movable jaw is no longer acted upon by the stop surface of the movable pliers leg. The coarse longitudinal adjustment of the jaws of the pliers takes place in that the movable jaw is dragged along by means of the pivot bearing against an inner wall of the window. Due to the fact that the pivot is mounted in a window of the movable jaw, this has a play that is compensated for by the resistance of the workpiece to be gripped when the jaws are closed. Furthermore, these key pliers have no limit stop in the opening direction. The open position of the key pliers is therefore not defined. Opening it too far can even result in the loss of engagement from the engagement tooth in the toothing of the recess. This means that the opening width of the jaws can be changed unintentionally. Safe handling of the key pliers is not guaranteed in this embodiment.

The object of the present invention is to make a generic key plier more favorable in terms of handling.

This object is achieved by the invention specified in claim 1.

The subclaims are advantageous developments of the subject matter of the invention.

As a result of such an embodiment, a generic key pliers with increased utility value is created, in which both the coarse longitudinal adjustment and the pliers The mouth is closed via the power transmission point, the structural means being simple and expedient. The procedure is such that the force transmission point designed as a form-fitting engagement between the jaw-side arm and the movable jaw is the connection point both for the coarse longitudinal adjustment and for the jaw opening between the jaw leg and the movable jaw. The positive engagement between the movable pliers leg and the movable pliers jaw is thus maintained in every operating position. When the jaws are closed, the movable jaw is moved towards the fixed jaw via the force transmission point. The same connection point between the movable pliers leg and the movable pliers jaw also serves to roughly adjust the key pliers. The position of the movable pliers jaw is directly dependent on the position of the movable pliers leg, regardless of the previously set opening width of the jaws. The position of the movable pliers jaw cannot be changed by a workpiece to be gripped without changing the position of the movable pliers leg. An advantageous development is that the guide of the movable jaw is designed as a space next to the longitudinal slot guide, in which space a guide section of the movable jaw extends. It is preferably provided here that the free space is designed as a groove and the guide section as a rib. However, it is also conceivable to design the free space as a slot and the guide section as a bolt. This configuration of the guidance of the movable jaws proves to be a significant advantage in terms of handling. The key pliers can thus be made relatively slim, taking into account that there is always a safe guidance of the movable jaw. About the power To optimize the bearing between the movable pliers leg and the movable pliers jaw, it is provided that the force transmission point acts both in the coarse longitudinal adjustment and in the jaw opening essentially in the area of the free space. The consequence of this is that the main force component extends approximately in the axial direction of the free space and thus in the direction of movement of the movable pliers jaw when the movable jaw is displaced. This prevents the movable jaw from tilting within the area of the free space. Another advantage of this configuration is the fact that the force transmission point is arranged in the immediate vicinity of the jaws. A torque of the movable pliers jaw that occurs under load is thus reduced to a minimum. Furthermore, it is provided that the movable jaw is caught essentially free of play beyond the axis of rotation over the entire pivoting path of a set opening width under a stop limitation on both sides by the engaging tooth of the movable jaw leg adjacent stop surfaces. The positive connection between the movable jaw and the pliers leg is realized by a hinge arrangement, wherein a hinge pin arranged on the end of the pliers leg opposite the handle part and beyond its axis of rotation engages in a joint recess of the movable jaw essentially without play. A limit stop in the open or The closed position of the pliers is achieved by the respective support of a stop surface adjacent to the hinge pin and likewise formed on the pliers limb on the support surface of the movable jaw which is associated with the hinge formation and is adjacent to the latter. This also prevents fingers from jamming between the fixed leg and the pliers leg. The two legs can with one Do not touch actuation in system. An advantageous development is that a stop shoulder is formed on the movable jaw with a lateral distance to a substantially U-shaped recess receiving the engagement tooth, which protrudes downward over a lower edge of the movable jaw running on both sides of the recess. This training offers improved support of the movable pliers leg in the open position. This prevents the hinge pin from moving out of the joint recess via any lever forces and thus releasing the movable jaw, which can lead to the loss of the latter. Another advantage of this embodiment is the fact that the movable jaw is fork-shaped and is guided in outer grooves of the fixed leg running parallel to the row of teeth. This counteracts tilting of the movable jaw and ensures optimal guidance of this movable jaw. Improved handling is further achieved in that the pliers leg is fork-shaped and an engagement tooth is formed on both sides, which engages in a recess of the movable jaw. In this configuration, the force is not, as in the previously described prior art, supplied on one side, decentrally to the central axis of the movable jaw of this movable jaw, but on both sides, symmetrically to the central axis, which causes the movable jaw to tilt about its longitudinal axis and thus tilt is avoided. The power transmission from the movable pliers leg to the movable jaw is optimally solved due to this design. The row of teeth for changing the opening width of the jaws is formed on both sides on a recess. The articulated and adjustable teeth engage in two opposite rows of teeth at the same time. Another essential Ches feature of the invention relates to the alignment of the recess, which is provided with the rows of teeth mentioned and a guide groove of the movable jaw. The central axes of the recess and the guide groove diverge in the closing direction of the pliers mouth. When moving the movable jaw in the closing direction of the jaws, there is a certain amount of migration downward of the pivot pin from the joint recess. This has the consequence that the pliers legs can be moved towards each other in the closed position. Conversely, when the movable jaw is moved in the opening direction of the pliers mouth, the pliers legs can be moved less far towards one another in the closed position. This ensures that the distance between the lower ends of the pliers legs is approximately maintained in the two extreme positions of the movable jaw, but the angle between the pliers legs changes.

• Fig. 1 eine Vorderansicht auf eine erfindungsgemäße Schlüsselzange in zusammengedrückter Stellung, gemäß einer ersten Ausführungsform,
• Fig. 2 eine der Fig. 1 entsprechende Darstellung, jedoch in geöffneter Stellung,
• Fig. 3 eine Seitenansicht der Schlüsselzange,
• Fig. 4 eine Einzeldarstellung einer beweglichen Backe,
• Fig. 5 ein perspektivisch dargestellter Ausschnitt der Schlüsselzange in geöffneter Stellung,
• Fig. 6 eine Vorderansicht auf eine Schlüsselzange in zusammengedrückter Stellung, gemäß einer zwei­ten Ausführungsform,
• Fig. 7 eine der Fig. 6 entsprechende Darstellung, jedoch in geöffneter Stellung,
• Fig. 8 einen Schnitt gemäß der Linie VIII-VIII in Fig. 6,
• Fig. 9 einen Schnitt gemäß der Linie IX-IX in Fig. 8,
• Fig. 10 eine Vorderansicht auf eine Schlüsselzange in zusammengedrückter Stellung, gemäß einer drit­ten Ausführungsform,
• Fig. 11 eine der Fig. 10 entsprechende Darstellung, jedoch in geöffneter Stellung,
• Fig. 12 einen Schnitt gemäß Linie XII-XII in Fig. 10 und
• Fig. 13 einen Schnitt gemäß der Linie XIII-XIII in Fig. 12.

Further advantages and details of the invention are explained in more detail below with the aid of three illustrative exemplary embodiments. It shows:

• 1 is a front view of a key pliers according to the invention in the compressed position, according to a first embodiment,
• 2 shows a representation corresponding to FIG. 1, but in the open position,
• 3 is a side view of the key pliers,
• 4 shows an individual illustration of a movable jaw,
• 5 is a perspective section of the key pliers in the open position,
• 6 is a front view of a pair of key pliers in the compressed position, according to a second embodiment,
• 7 shows a representation corresponding to FIG. 6, but in the open position,
• 8 shows a section along the line VIII-VIII in FIG. 6,
• 9 shows a section along the line IX-IX in FIG. 8,
• 10 is a front view of a pair of key pliers in the compressed position, according to a third embodiment,
• 11 is a representation corresponding to FIG. 10, but in the open position,
• Fig. 12 is a section along line XII-XII in Fig. 10 and
• 13 shows a section along the line XIII-XIII in FIG. 12.

The key pliers 1 of all exemplary embodiments have a movable pliers leg 2 and a fixed leg 3, which merges into a bearing plate 4 in the same material. This has a recess 5, which is profiled sawtooth-like on its parallel longitudinal flanks 6. Above the recess 5 and parallel to it are in the bearing plate Te 4 arranged two free spaces 7 each machined on the outer surfaces, which run symmetrically to the key pliers center axis xx. In the area of the bearing plate 4 which is distant from the fixed leg 3, a fixed jaw 8 which is thicker in material (in comparison to the bearing plate 4) is arranged symmetrically to the axis xx. This fixed jaw 8 is opposite a movable jaw 9, which is designed to be essentially symmetrical with respect to the fixed jaw 8. The movable jaw 9 forms in its lower region two cantilevers 10 which rest on the surfaces of the bearing plate 4 and overlap them in their upper region. On the inner sides facing the bearing plate 4, the arms 10 have guide sections 11, each of which forms a guide for the movable jaw 9 with one of the free spaces. The guide sections 11 are formed continuously. A guide section 11 is therefore also provided in the region of the joint recess 15. The joint recess 15 correspondingly extends over the thickness of the jaw as such, while the guide strip 11 is also formed underneath (see, for example, FIG. 4). In principle, such a jaw can be worked from the solid, for example, forged. However, it is currently preferred to solder the guide bar 11, for example. Overall, an improvement in strength is also achieved with the continuous guide bar 11: the jaw 9 is considerably stiffer in the critical cross section. The neutral phase under bending stress has been shifted.

The free spaces 7 are continuous, over the entire length or width of the jaw 9.

In the boom end regions 12 10 stop shoulders 13 are arranged on the arms. With a lateral distance to the stop shoulders 13 10 joint recesses 15 are provided in the arms, which are substantially U-shaped. They serve to receive pivot pins 16 of the movable pliers leg 2. This is fork-shaped in the upper part, the fork legs being arranged symmetrically to the central axis xx and resting on the surfaces of the bearing plate 4. The pliers leg 2 is supported in the recess 5 by a joint pin 18 having a toothed segment. The configuration of the mounting of the pliers leg 2 and the procedure for moving the pliers leg in the recess 5 have already been disclosed in European patent 0 116 305. In this respect, reference is made in full to this extent and the corresponding disclosure is hereby incorporated.

In the first exemplary embodiment shown in FIGS. 1-5, the free spaces 7 are designed as grooves 22 in which the guide sections 11 formed as ribs 23 lie. These ribs 23 extend substantially at right angles to an inner edge 9 'of the movable jaw 9 extending over the entire length of the arm 10, the ribs 23 being shaped so that they practically completely fill the grooves 22 in cross section. The stop shoulder 13 arranged in the boom end regions 12 project downward over the lower edge 14 of the boom 10.

Above the hinge pin 18 there are 16 stop surfaces 19 and 20 on both fork legs 17 on both sides of the hinge pin.

The angle between the fixed leg 3 and the recess 5 having the sawtooth-like profiled longitudinal flanks 6 is approximately 15 ° in this embodiment.

In the closed position of the key pliers 1 according to FIG. 1, the movable jaw 9 is displaced into the closed position via the joints composed of the joint recesses 15 and the joint pins 16. Here, the stop surfaces 19 are supported on the sections 21 of the lower edges 14 assigned to them. The closed position is thus defined and is independent of the position of the hinge pin 18 in the recess 5, since when the hinge pin 18 is displaced in the recess 5 there is a simultaneous, essentially parallel displacement of the movable jaw 9. This prevents fingers from getting caught between the tong legs 2 and 3. When the key pliers 1 according to FIG. 2 are opened, the movable jaw 9 is moved back until the stop surfaces 20 are supported on the lower edges 14 of the extension arms 10 in the region of the stop shoulders 13. The fork legs 17 act on the stop shoulders 13, which should prevent the pivot pins 16 from being moved out of the joint recesses 15 due to lever forces. This stop limitation also defines the open position and, like the closed position, regardless of the position of the hinge pin 18 in the recess 5. The closing path between the open position and the closed position thus remains the same length for each preselected opening width.

An essential feature relates to the alignment of the recess 5 and the guide grooves 22 with respect to one another. The guide grooves 22 and the recess 5 are arranged so that central axes a, a 'of the recess 5 and a guide groove 22 in the closing direction of the pliers 1, for example in Fig. 1 to the right, diverge slightly. The opening angle between the axes is approximately 1-3 °, preferably 2 °. In a ver push the movable jaw 9 in the closing direction of the pliers 1, the hinge pin 16 in the joint recess 15 moves somewhat downward. As a result, when the pliers 1 are closed, the stop surface 19 reaches its stop position somewhat earlier (in relation to the path) in contact with a section 21. However, this advantageously has the result that the distance between the lower ends of the pliers legs 2, 3 in the closed position of the Pliers 1 is approximately the same as with a large opening width of the pliers mouth, the movable jaw 9 being displaced in the direction of an opening of the pliers mouth.

The exemplary embodiments in FIGS. 6-13 differ essentially from the first exemplary embodiment in FIGS. 1-5 in that the angle between the fixed leg 3 and the recess 5 is approximately 60 °.

Furthermore, it is also important that the joint recess 15 is arranged with a clear lateral displacement of the jaw 9, more precisely the tip region thereof. The lateral offset corresponds approximately to one to two times the thickness or width of the pivot pin 16. This lateral offset contributes significantly to being able to design the pliers in the desired slim shape.

In particular, the cap 9 according to the exemplary embodiment in FIGS. 6-13, but also the corresponding jaw of the other exemplary embodiments, can be constructed in two parts in cross section. In terms of production, two cheek parts bent from sheet steel are laid flat and riveted together in the upper cheek area. The parts can also be soldered or welded. The corresponding design is in Figs. 6 and 7 by the here emerging outer visible edges are only indicated schematically.

With reference to FIG. 8, it is made clear that the guide sections 11, which are otherwise continuous, are designed as separate parts which are connected to the extension area 10 of the jaw 9, namely preferably soldered. The formation of the guide of the movable jaw 9 of the second embodiment according to FIGS. 6-9 is the same as that of the first embodiment. Here, too, the bearing plate 4 has grooves 22 for receiving ribs 23, which extend on the inner sides of the movable jaw 9.

The stop shoulders 13 arranged in the boom end regions 12 are designed in the shape of a circular arc and extend into the region of the joint recess 15. On the side of the joint recess 15 opposite the stop shoulder 13, the movable jaw 9 forms partial sections 21. In the closed position of the key pliers 1 according to FIG. 7, the stop surfaces 19 are supported on the sections 21 of the movable jaw 9 assigned to them. The closed position is also defined here and is independent of the position of the hinge pin 18 in the recess 5. When the key pliers 1 according to FIG. 7 are opened, the movable pliers leg 2 is supported on the displaceable jaw 9 in the same way, the stop shoulders 13 also the stop surfaces 20 form.

In the exemplary embodiment according to FIGS. 10-13, the guide of the movable jaw is composed of a slot 24 arranged in the bearing plate 4 and a bolt 25 inserted in the displaceable jaw 9. s This pin 25 is arranged in the region of the boom end regions 12 and connects them to one another.

The operation of the key pliers 1 according to FIGS. 10-13 largely corresponds to that of the second embodiment. Only the stop limitation when the key pliers are in the closed position is not carried out by supporting a stop surface on a section of the movable jaw 9. This support is provided here by means of a stop pin 26 arranged in the movable pliers leg 2 in the lower region of its fork leg 17, which is in the closed position is supported on an outer edge of the bearing plate 4 facing it.

An essential feature of all the exemplary embodiments is that the positive engagement between the pivot pin 16 and the joint recess 15 forms the connection point between the movable jaw 9 and the movable pliers leg 2 both for coarse longitudinal adjustment and for closing the jaws. The key pliers 1 have no further connection point between the movable jaw 9 and the movable pliers leg 2.

Furthermore, in all of the exemplary embodiments, force is transmitted from the movable pliers leg 2 to the movable jaw 9 both in the coarse longitudinal adjustment and in the closing of the pliers jaws essentially in the region of the free spaces 7, that is to say in the region of the grooves 22 or the slot 24. The pivot pins 16 cover the free spaces 7 in almost every operating position. An optimal power transmission is thus realized, especially since the force transmission points 27 composed of the joint pins 16 and the joint recesses 15 are arranged in the immediate vicinity of the jaws M.

The handling of the key pliers 1 can, for example, look as follows: when loosening or tightening a screw or the like, the movable jaw 9 is brought up to the screw by bringing the hinge pin 18 out of its positive locking with the sawtooth-like profile of the longitudinal flanks 6 of the recess 5 and the movable pliers leg 2 is displaced while taking the movable jaw 9 with it. The clear width between the jaws 8 and 9 now corresponds to the head width of the screw. By moving the pliers leg 2 into the open position, the movable jaw 9 is moved back, the clear width between the jaws 8, 9 increasing, which gives the user the opportunity to remove the key pliers 1 from the screw and reattach them. Then the legs 2 and 3 are pressed together, which in turn results in the jaws 8 and 9 being closed and thus the screw being clamped again. By alternately closing, opening and reattaching the key pliers 1, the user can loosen or tighten screws or the like, for example, under favorable handling conditions, without losing the engagement between the movable pliers leg 2 and the movable jaw 9. Changing the width of the key is only possible with the will in mind.

The features of the invention disclosed in the above description, the drawing and the claims can both individually and in any combination of importance for the implementation of the invention. All disclosed features are essential to the invention. The disclosure content of the associated / attached priority documents (copy of the prior application) is hereby also included in full in the disclosure of the application.

Claims (11)

1.Key pliers (1) with two pliers jaws (M) forming the jaws (M), of which one (fixed jaw 8) sits firmly on a pliers leg (3), which for coarse adjustment of the pliers mouth (M) has a longitudinal slot guide (recess 5) for the pliers leg pivot (hinge pin 18) and of which the other (movable jaw 9) is slidably guided on the pliers legs (3) carrying the fixed jaw (8) and via a force transmission point (27) between a shoulder (extension arm 10) displaceable jaw (9) and the arm on the jaw (pivot pin 16) of the movable jaw leg (2) can be displaced for closing the jaws, characterized in that the force transmission point (27) designed as a form-fitting engagement between the arm on the jaw side (pivot pin 16) and the movable jaw (9) the connection point both for coarse longitudinal adjustment and for closing the jaws between the jaw legs (2) and bewe same cheek (9). 2. Key pliers, in particular according to claim 1, characterized in that the guide of the movable jaw (9) is designed as a free space (7) next to the longitudinal slot guide (recess 5), in which free space (7) a guide portion (11) of the movable jaw (9) protrudes. 3. Key pliers, in particular according to one or more of the preceding claims, characterized in that the free space (7) is designed as a groove (22) and the guide section (11) as a rib (23). 4. Key pliers, in particular according to one or more of the preceding claims, characterized in that the free space (7) is designed as a slot (24) and the guide section (11) as a bolt (25). 5. Key pliers, in particular according to one or more of the preceding claims, characterized in that the force transmission point (27) acts both in the coarse longitudinal adjustment and in the jaw opening essentially in the area of the free space (7). 6. Key pliers, in particular according to one or more of the preceding claims, characterized in that the movable jaw (9) beyond the axis of rotation over the entire pivoting path of a set opening width is caught essentially free of play under a stop limitation on both sides by the engaging tooth (pivot pin 16) of the movable pliers legs (2) adjacent stop surfaces (19 and 20). 7. Key pliers, in particular according to one or more of the preceding claims, characterized in that on the movable jaw (9) with a lateral distance to an engaging tooth (pivot pin 16) receiving, substantially U-shaped recess (joint recess 15) a stop shoulder ( 13) is formed, which projects downward over a bilateral recess (joint recess 15) lower edge (14) of the movable jaw (9). 8. key pliers, in particular according to one or more of the preceding claims, characterized in that the movable jaw (9) is fork-shaped and approximately parallel to the row of teeth grooves (7) of the fixed leg (3) is guided. 9. Key pliers, in particular according to one or more of the preceding claims, characterized in that the pliers leg (2) is fork-shaped and an engagement tooth (pivot pin 16) is formed on both sides, each in a recess (joint recess 15) in the movable jaw ( 9) intervenes. 10. Key pliers, in particular according to one or more of the preceding claims, characterized in that central axes (a, a ') of the recess (5) and a guide groove (7) diverge in the closing direction of the pliers mouth. 11. Key pliers, in particular according to one or more of the preceding claims, characterized in that the central axes (a, a ') have an opening angle of approximately 2 °.

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