DE4427553A1 - Manually operated hand-held tool for crimping or cutting wires - Google Patents

Abstract

The hand-held tool has a fixed jaw (13) and a movable jaw (10) that is located in guides within the yoke element (10). Actuation of the jaws which can be shaped to suit either cutting or crimping, is provided by a pair of grips (15,16) that are pressed together. The grips have a common pivot point (17) and the coupling to the yoke assembly is provided by a pair of links (21,22). The range of displacement of the movable jaw is dependent upon the setting of an eccentric bolt (9) that operates with toothed (33) disc.

Description

The invention relates to a tool for crimping, Cutting, pressing or the like, with a yoke and one in it linearly guided anchor plate with tool head, with two a common swivel handle levers and with two Pull tabs, with the common swivel on the anchor plate supports and each pull tab over two end joints on the one hand with the yoke and on the other hand with the respective one Handle lever is connected. Such a tool is usually used equipped with two die - shaped parts, which serve as dies and Patrix are formed. One part becomes stationary on the yoke and the other part is movably arranged with the anchor plate.  

A tool of the type described above is from DE 34 11 397 C2 known. The two handle levers flow into one common swivel over which they are against each other are pivotable. This common swivel is at the Anchor plate supported. When the tool closes the common swivel moves and with it the anchor plate in a linear motion. Outside the vertical The longitudinal center plane of the tool are preferably symme trischer arrangement provided two pull tabs, so the train and the corresponding counterforces are claimed need to take up while the common swivel is under pressure is claimed. This particular type of tool is not practiced Scissors movement. The five joints on the yoke and on the Handle levers are formed by cylindrical bolts that the allow corresponding relative movements of the parts to each other. The manufacture of the individual parts of the tool must be relative narrow tolerances are carried out precisely so that a defined closed position is reached. In association with this defined closed position of the female and male parts in the tool head, a positive lock is provided, which a Tooth segment on a handle lever and a swiveling one Has latch in the area of the other handle lever. This Forced locking is described in more detail in DE 34 11 459 C2. The latch is adjustable in the range of one Knurled nut arranged cage provided. The forced lock serves to initiate a closing process of the tool or the handle lever must continue until one defined end position is reached, which in turn on the Closed position between the female and male parts is tuned or set in the tool head. With a such adjustable and adjustable positive locking, it is possible the end position of the handle lever during a closing movement on the Adjust the closed position of the parts in the tool head, whereby Manufacturing tolerances of the individual parts of the tool same and occurring wear with frequent use of the tool can be counteracted. Due to the  given translation ratios results in an adjustment of the End position of the forced locking, however, only a very sensitive Adaptation to the closed position of the female and male-shaped Parts in the tool head that are often not sufficient for larger ones Compensate for tolerances and / or wear. With this, The forced locking is an integral part of the a handle, while the cage with the latch on the other handle lever is arranged adjustable.

On the other hand, pliers-like tools are one Provide scissor movement, known as forced locking, in which the Tooth segment on a separate to the handle levers Lever is arranged. So shows z. B. U.S. Patent No. 3,157,075 Pliers where the two handle levers over the common Swivel joint are elongated and on the form of matrices and patrices Attack parts that are parallel to one another Move the closing movement of the handle levers. This separate lever is the handle lever on the common swivel joint pivoted and on the other hand via a separate Eccentric bolt adjustable, which in turn on one of the Handle lever is also provided. U.S. Patent 3,277,751 shows such a pair of scissors-like pliers with a positive lock, which also has a separate one that supports the tooth segment Lever can be swiveled around the common swivel joint of the handle lever is arranged. The lever already carries a stop, too whose help is the overpressure of the handle levers through a Opening the forced lock limited end position beyond becomes. The bearing the tooth segment and around the common The handle lever can be pivoted in its swivel lever Relative to the locking pawl of the forced locking locked and can be set. A screw / nut Connection in an oblique slot of one Handle lever can be fixed.

In a third type of tool, where a fixed continuous handle lever combined with a second handle lever  is who uses a knee joint from two levers, it is from the DE 37 08 727 C2 known, between the two levers of one Handle lever to arrange a positive locking, its end position is adjustable to the dead center position of the toggle lever drive. For Change the effective lever lengths of the two levers of the Toggle lever drive and for adjusting the pressing force of the press jaws in the closed position and for play caused by wear to compensate is at one end of one lever of the knee lever an adjustable eccentric bolt and at the other end of the another of the two levers of the toggle lever drive an adjustable Adjustment screw provided. Both adjustment options, the can be used individually or in combination, serve alone to adjust the pressing pressure or the pressing force in the End position of the closing movement.

The invention is based, with a tool linear movement in the area of the tool head, which is approximately vertical the handle lever runs right to the direction of the closing movement, to create an adjustment and adjustment with which Manufacturing tolerances and occurring wear balanced and the possibility for the user of the tool opened, the closed position or the end position in simpler Ways to vary.

According to the invention, this is the case with the tool at the beginning described type achieved in that at least one of the five joints an eccentric pin rotatable about its axis has, and that a releasable securing element for blocking the rotatability of the eccentric bolt is provided.

The invention is based on the idea of manufacturing tolerances and / or wear that occurs within relatively wide limits easy to balance. This, however, is exhausted Not invention, but continues to aim through the adjustability within relatively wide limits is also possible ability to create a usable working end position of the die and  to select the male part in the tool head that consciously deviates from the closed position of these parts. For this, a quick adjustment is required, which the Tool users allowed such a special Working end position if a series of the same workpieces is to be processed. All of this is with a simple eccentric to reach the bolt which is rotatable on its axis Tool is arranged so that its eccentric different Can assume relative positions to its axis. The eccentric bolt is assigned a securing element, which on the one hand is light is releasable so that the eccentric bolt can be rotated, and which, on the other hand, can be set so that the Rotatability of the eccentric bolt determined or blocked is. The arrangement of one or more such eccentric bolts happens primarily as part of one or more of the four joints that featured on the ends of the two pull tabs are seen. These pull tabs are used during a closing movement the handle lever is under tension. The eccentric bolt can also used as part of the common swivel be, whereby he then loaded on the anchor plate to pressure becomes. With such an eccentric bolt, the vary and adjust the effective length of a single lever.

The eccentric bolt can one in the area of its bolt shank have non-circular cross-section; the associated securing element has a protruding radially to the axis of the eccentric bolt Disc on which the non-circular cross-section of the stud sheep tes has the corresponding opening. Because that backup element consciously as radial to the axis of the eccentric bolt protruding lever arm is designed, it can also be a Tool for the quick adjustment of the rotatability of the Form eccentric bolt, so that for such a quick adjustment no separate tool part is required. For Realization of the non-circular cross-section is one Cross-section meaningful, the several relative positions between the Security element and the bolt shank allows, starting approximately  with a triangular, quadrangular, pentagonal, etc. cross cut. The eccentric pin is therefore deliberately outside of one Forced lock provided to those with the forced lock necessarily exclude associated leverage and to be able to bridge a wider adjustment range.

It is particularly advantageous if a between the handle levers Forced locking with a tooth segment and a rotatable bearing th latch is provided, the toothed segment in one End portion of a rocker arm is provided, the other End area on a yoke-side joint of one of the pull tabs pivotable and its central area in the handle-side joint this pull tab by means of another eccentric bolt associated locking element against and locked the latch is adjustable. The first eccentric pin forms as it were a rough adjustment and the further eccentric bolt a fine adjustment. This is a relatively large one at the same time Adjustment range can be bridged and yet via the fine adjustment a sensitive, precise setting is possible. The Kombina tion of an eccentric bolt in the area of the pull tabs and one is another eccentric in the area of the forced locking important.

The eccentric bolt and / or the further eccentric bolt can Part of the handle lever-side joint on the pull tab his. In connection with this, the securing element can be used as a Rectangular locking plate can be formed, the extends parallel to the lateral surface of the handle lever and in a recess of a removable protective handle of the handle lever is secured. The rectangular locking plate lies protected on the surface of the handle lever in the blocked Position. It is taken off as a plastic mold partially trained protective handle accessible from the metal trained grip lever disguised. Separate definition means are thus unnecessary. On the other hand, this allows Training but also a very quick adjustment without  additional tool. All that is required is the protective handle pulled off, the locking plate twisted and then in one assumed relative position again on the non-circular cross-section the bolt shaft of the eccentric bolt. By pushing on the protective handle becomes the set position secured.

Due to the rectangular design of the locking plate, it is possible to arrange several openings, preferably on the end areas of the rectangular securing plate in the longitudinal direction direction are arranged so that the locking plate even a relatively large lever arm around the axis of the eccentric bolt around can form, so that a slight twist of the Eccentric bolt is possible. By arranging several, twisted against each other provided on the locking plate Breakthroughs make it possible to increase the number of steps adjustment options to be taken. If the Locking plate is also designed as a reversible plate and the openings are arranged twisted, so that a different relative position when turning the locking plate take is in a relatively simple design of the cross section already a variety of ingestible blocking positions Aimable only by a relatively small angle of rotation, for example wise 7.5 °, are shifted against each other. The exemplary mentioned 7.5 ° arise z. B. if two openings like a regular hexagon on a fuse plate are provided, which are rotated against each other and where the locking plate is different when it is turned Settings enabled. The securing element can additionally be provided with a location marking to the user the adjustment an indication of the adjustment options that To give direction of adjustment etc. A simple location label can, for example, by an embossed label or by rounding off the four differently Corners of the rectangular locking plate. In all of these In cases, the securing element is also a twisting tool trained for the eccentric bolt.  

The rocker arm can be adjacent to the toothed segment further closing movement of the handle lever preventing stop have, with a counter-stop on the other handle lever works together. It is understood that between the end of the Tooth segment and the counter stop effective at the stop there must be enough space to insert the latch into the To be able to pivot the release or release position. Of the However, stop prevents excessive pressing, so that the workpiece in question on the one hand and the tool on the other are protected against such damage.

The rotatability of the eccentric bolt and / or further Eccentric bolt can be limited to an angle of approximately 180 ° be so that a clear adjustment is possible and the In this respect, users cannot make any incorrect settings. The Limitation to about 180 ° also defines the direction so that the lever ratios on the pull tabs and the handle pry themselves relative to the yoke with an adjustment only in the can change the intended area.

The radius of the toothing of the toothed segment on the rocker arm can greater than its distance from its yoke-side joint be trained. The shape and arrangement of the tooth segment can approximate a curve shape.

The invention is further developed using preferred exemplary embodiments explained and described. Show it:

Fig. 1 shows a first embodiment of the tool with a jochseitig arranged eccentric,

Fig. 2 shows a detail from Fig. 1 in enlarging representation,

Fig. 3 is a section according to the line III-III in Fig. 2,

Fig. 4 shows a second embodiment of the tool with eccentric drehgelenkseitigem,

Fig. 5 shows a detail of the tool of FIG. 4 in the enlarging view

Fig. 6 shows a third embodiment of the tool handle with two lever-side eccentric pin,

Fig. 7 is a plan view of the toothed segment of the tool of Fig. 6,

Fig. 8 is a plan view of a locking plate,

Fig. 9 is a plan view of a further securing plate,

Fig. 10 shows a fourth embodiment of a tool with an eccentric bolt in the central region of the tooth segment and

Fig. 11 is a plan view of the gear segment of FIG. 10.

The tool shown in FIG. 1 has a tool head 1 and a pliers part 2 . The tool head 1 has a frame-shaped yoke 3 , which is composed of two ring plates 4 and 5 , which are held at a distance from one another ( FIG. 3). Two spacer bolts 6 arranged in the free end region of the yoke 3 serve this purpose. Otherwise, two joints 7 and 8 are provided on the yoke 3 , the pliers part 2 , which are also designed so that they keep the ring plates 4 and 5 of the yoke 3 at a distance. An eccentric pin 9 is arranged in the joint 7 . The eccentric pin 9 could alternatively or cumulatively also be arranged in the joint 8 .

In the yoke 3 of the tool head 1 , an anchor plate 10 is guided in a linearly movable manner in the direction of the arrow 11 , which at its end facing away from the pliers part 2 is designed as a movable press jaw 12 or carries such a press jaw 12 . Fixed in an associated yoke member 13 is provided, which is realized on a stationary pressing jaw fourteenth It is understood that other tool elements can also be arranged or can be arranged at this point. The design of the tool head 1 corresponds essentially to Fig. 1 of DE-PS 34 11 397.

The pliers part 2 has two handle levers 15 and 16 , which can be of plate construction, similar to the tool head 1 . The handle levers 15 and 16 face the yoke 3 of the tool head 1 and are brought together at a common swivel joint 17 and can be moved relative to one another by means of a bolt, so that they can be opened or closed in the manner of pliers around the swivel joint 17 . Fig. 1 shows the closed position when the end position is reached and the forced locking disengages.

On the two handle levers 15 and 16 , the pivot joint 17 is turned joints 18 and 19 are formed, which can be realized by bolts, both the yoke-side joints 7 and 8 and the handle lever-side joints 18 and 19 are each symmetrical to a longitudinal median plane 20 by the common rotary joint 17 is laterally offset. The handle levers 15 and 16 can also be designed as double plates, as was explained for the yoke 3 using the ring plates 4 and 5 . However, it is also possible to form the handle levers 15 and 16 each with a U-shaped cross section from a coherent piece of material.

The joint 17 of the handle lever 15 is connected via a pull tab 21 with the yoke-side joint 7 of the tool head 1 . A pull tab 22 engages on the joint 19 of the handle lever 16 and is pivotally attached with its other end region to the joint 8 of the yoke 3 . A protective handle 23 made of plastic, rubber or the like is pushed over the handle lever 15 and can also be removed. A corresponding protective handle 24 is provided for the handle lever 16 .

The eccentric pin 9 is mounted rotatably about its axis forming the joint 7 in the ring plates 4 and 5 of the yoke 3 . His bolt shaft 25 has an eccentric cam 26 , the circular outline of which is arranged eccentrically to the axis of the joint 7 . This eccentric cam 26 is surrounded by a circular opening 27 in the pull tab 21 . The bolt shaft 25 has in the area of the ring plates 4 and 5 cylinder sections 28 and 29 , which therefore run in a circle around the axis of the joint 7 . The bolt shaft 25 finally has a non-circular cross-section 30 , which is provided here as a cylinder with a flattening on one side. This non-circular cross section 30 protrudes from the surface of the ring plate 4 . A detachable securing element 31 is placed on this non-circular cross-section 30 , which has an opening 32 corresponding to the non-round cross-section 30 of the bolt shank 25 . In an attached state of the bolt shank are thus of the eccentric pin 9 is connected rotationally fixed with the securing element 31 25, so that the eccentric bolt can be pivoted 9 via a rotation of the securing element 31 about the axis of the joint. 7 The fuse element 31 has a disk-shaped shape and extends substantially radially to the axis of the joint 7 or the Exzen terbolzens 9th The edge of the disk-shaped securing element 31 is equipped with a toothing 33 , which toothing 33 extends over such a circumferential region of the securing element 31 as is provided for the pivoting of the eccentric cam 26 of the eccentric bolt 9 . To determine the respectively set relative position of the eccentric pin 9 , a pin 34 is provided which can be pressed into a bore 35 in the ring plate 4 of the yoke 3 under frictional engagement or can be released again. The pin 34 can also be designed as a screw and can be handled with the aid of a twisting tool.

With the aid of the eccentric bolt 9 , the effective length of the pull tab 21 , which is subjected to tension, can be adjusted, as it were, by adjusting the axis of the eccentric cam 26 relative to the fixed axis of the joint 7 . The symmetry between the joints 7 and 8 to the longitudinal center plane 20 can be slightly disturbed. However, this is easily accepted. Although the eccentric 9 is only here in the area of the joint 7 , it is pointed out that it could also be provided alternatively in the area of the joints 8 , 18 , 19 or in the area of the common joint 17 . It is also possible to arrange two eccentric bolts 9 in the area of the five joints 7 , 8 , 18 , 19 , 17 in order to have two adjustment possibilities. This adjustment serves, on the one hand, to compensate for manufacturing tolerances and, on the other hand, to compensate for wear that occurs when using the tool. The adjustment can also serve the purpose of relatively adjusting the closed position or a desired working position between the press jaws 12 and 14 and an end position of the locking mechanism to be described on the tool. The adjustment in the area of the joints 7 , 8 , 18 , 19 is more sensitive than an adjustment in the area of the common swivel joint 17 of the handle levers 15 and 16 .

The pliers part 2 is equipped with a positive lock 36 , the essential elements of which are a toothed segment 37 and a pivotable latch 38 . The toothed segment 37 is an integral part of the handle lever 16 or one of the two plates of this handle lever 16 . The toothed segment 37 has a fine toothing 39 facing the latching pawl 38 . The locking pawl 38 can be rotated about an axis 40 on the handle lever 15 and is held in a central position by a spring 41 . The locking pawl 38 has a projection 42 which cooperates with the toothing 39 of the toothed segment 37 during the closing movement of the pliers part 2 and counteracts an interruption of the closing process in the opening direction of the handle levers 15 and 16 . The locking pawl 38 has a second projection 43 which cooperates with the toothing 39 of the toothed segment 37 during the opening movement of the handle levers 15 and 16 about the common swivel joint 17 and prevents an arbitrary interruption of the opening movement in the closing direction.

In the embodiment of FIGS. 4 and 5, the eccentric cam 9 is arranged at the location of the common pivot joint 17 of the handle levers 15 and 16 . The eccentric cam 9 is designed as has already been described with reference to FIGS. 1 to 3. The securing element 31 here has a disk 44 which projects radially to the axis of the eccentric bolt 9 and which has an opening 32 corresponding to the non-circular cross section 30 of the bolt shaft 25 . The disc 44 has bores 45 which are arranged in accordance with the intended pivoting angle. A pin 34 also serves to block the rotatability of the eccentric pin 9 . The disc 44 is designed as an indexable insert 46 . The non-circular cross-section 30 and the opening 32 here have a square cross-section, the square cross-section being rotated by half a division relative to the bores 45 , so that when the disc 44 is turned through 180 ° and again placed on the bolt shaft 25, adjustment in half-division steps is possible .

In the embodiment of the tool according to FIGS. 6 to 9, the eccentric bolt 9 is provided in the area of the joint 18 of the handle lever 15 , while the joints 7 and 8 are realized without eccentric bolts, that is to say with normal cylindrical bolts. A securing plate 47 is provided as a securing element 31 for blocking the rotatability of the eccentric bolt 9 , which securing plate has the appearance shown in FIG. 8. The securing plate 48 has an approximately rectangular outline and an elongated shape. It has two openings 48 and 49 arranged offset with respect to one another, which are hexagonal in shape, the arrangement of the hexagons being provided rotated by 15 ° relative to one another. In addition, the hexagons of the openings 48 and 49 are arranged rotated by an angle of 7.5 ° with respect to the longitudinal sides of the securing plate 47 , so that this securing plate is also designed as an indexable plate 46 . The securing plate 47 is fixed in a recess 50 of the protective handle 23 in a position aligned parallel to the extension of the handle lever 15 . By pulling the protective handle 23 , the securing plate 47 is accessible. The eccentric pin 9 can be pivoted by a pivoting movement about the axis of the joint 18 , the securing plate 47 being replaced in its parallel position to the handle lever 15 after the desired or necessary pivoting. Depending on the requirement of the adjustment, the securing plate 47 is also placed in a flipped position. A fine step adjustment in steps of 7.5 ° is possible. In order to make the respectively set position recognizable or traceable for the user, the securing plate 47 is provided with a position marking 51 , which is formed here by rounding the four corners in a different way.

A further eccentric bolt 52 is provided in the area of the forced locking device 36 in the area of the joint 19 of the handle lever 16 . This eccentric bolt 52, however, does not have an adjusting effect on the pull tab 22 when it is rotated, but rather only on the toothed segment 37 of the positive lock 36 . This means that the bolt shaft 25 of the further eccentric bolt 52 engages with a cylindrical part, not shown here, about the axis of rotation of the pull tab 22 . The eccentric cam 26 of the further eccentric bolt 52 works together with an elongated hole 53 in a toothed segment 37 designed as a rocker arm 54 as a separate part ( FIG. 7). The rocker arm 54 is thus adjustably arranged in the region of the joint 19 by means of the additional eccentric bolt 52 , so that the relative position of the fine toothing 39 of the toothed segment 37 and in particular its relative position to the detent pawl 38 which triggers the end position are adjustable. The yoke-side end region 55 of the rocker arm 54 has a bore 56 with which it is mounted on the pin of the joint 8 on the yoke 3 . The rocker arm 54 has, in association with the toothing 39 and following a free space 57 , as is required for the pivoting of the latch 38 , a stop 58 which is assigned a counter-stop on the latch 38 or on the handle lever 15 and overpressing the closed position of the pliers part 2 prevented. The swiveling speed of the further eccentric bolt 52 is realized in a similar way to that described with reference to the swiveling ability of the eccentric bolt 9 . Here, too, is a securing plate 59 , which can be designed as an indexable plate 46 ( FIG. 9). The securing plate 59 is also equipped with openings 48 , 49 . It also has a position indicator 51 and is taken in the secured position ( Fig. 6) from a recess 60 in the area of the protective handle 24 of the handle lever 16 . The openings 48 and 49 can also have a shape other than a hexagon in order to avoid confusion with the securing plate 47 . A notch, as shown in FIG. 9, can also be used for differentiation purposes. When in Figs. 10 and 11 presented Darge embodiment is only the further eccentric pin 52 provided at the location of the joint 19th The open position is shown. The rocker arm 54 is also formed as a separate part and rotatably mounted about the bolt of the joint 8 . The rocker arm 54 has no stop 58 here . The embodiment of FIGS. 10 and 11 has a very sensitive adjustment option for the relative adjustment of the end position of the two handle levers 15 and 16 during a closing process relative to the closed position or the working position of the press jaws. In the embodiment of FIGS. 6 to 9, the eccentric pin 9 forms, as it were, a rough setting with a relatively large adjustment range; the additional eccentric bolt 52 forms a fine adjustment with a narrower adjustment range within the rough adjustment range.

Reference list

1 tool head
2 pliers part
3 yokes
4 ring plate
5 ring plate
6 spacers
7 joint
8 joint
9 eccentric bolts
10 anchor plate
11 arrow
12 press jaw
13 part
14 press jaw
15 handle levers
16 handle levers
17 swivel
18 joint
19 joint
20 longitudinal median plane
21 pull tab
22 pull tab
23 protective handle
24 protective handle
25 bolt shank
26 eccentric cams
27 breakthrough
28 cylinder section
29 cylinder section
30 non-circular cross-section
31 securing element
32 breakthrough
33 gearing
34 pen
35 hole
36 Forced lock
37 tooth segment
38 latch
39 gearing
40 axis
41 spring
42 head start
43 head start
44 disc
45 hole
46 insert
47 locking plate
48 breakthrough
49 breakthrough
50 recess
51 Location marking
52 additional eccentric bolts
53 slot
54 rocker arm
55 end region
56 hole
57 Free space
58 stop
59 locking plate
60 recess

Claims (10)

1. Tool for crimping, cutting, pressing or the like, with a tool head ( 1 ) having a yoke ( 3 ) and an anchor plate ( 10 ) linearly guided therein, with two handle levers ( 15 , 16 ) having a common swivel joint ( 17 ) ) and with two pull tabs ( 21 , 22 ), the common swivel joint ( 17 ) being supported on the anchor plate ( 10 ) and each pull tab ( 21 ; 22 ) via two end joints ( 7 , 18 ; 8 , 19 ) on the one hand with the Yoke ( 3 ) and on the other hand is connected to the respective handle lever ( 15 , 16 ), characterized in that at least one of the five joints ( 7 , 8 , 18 , 19 , 17 ) has an eccentric bolt ( 9 ) which can be rotated about its axis, and that a releasable securing element ( 31 , 34 , 44 , 47 , 59 , 23 , 24 ) is provided for blocking the rotatability of the eccentric bolt ( 9 ). 2. Tool according to claim 1, characterized in that the eccentric bolt ( 9 ) in the region of its bolt shank ( 25 ) has a non-circular cross-section ( 30 ) and that the securing element ( 31 ) has a disk ( 44 ) projecting radially to the axis of the eccentric bolt ( 9 ) ) which has an opening ( 32 ) corresponding to the non-circular cross-section ( 30 ) of the bolt shank ( 25 ). 3. Tool according to claim 1 or 2, characterized in that between the handle levers ( 15 , 16 ) a positive locking ( 36 ) with a toothed segment ( 37 ) and a rotatably mounted latch ( 38 ) is provided that the toothed segment ( 37 ) in An end area of a rocker arm ( 54 ) is provided, the other end area ( 55 ) on a yoke-side joint ( 8 ) one of the pull tabs ( 22 ) is pivotable and the central area in the handle lever-side joint ( 19 ) of this pull tab ( 22 ) by means of a further eccentric bolt ( 52 ) with associated securing element ( 31 , 59 ) relative to the locking pawl ( 38 ) is mounted and adjustable. 4. Tool according to claim 1 or 3, characterized in that the eccentric bolt ( 9 ) and / or the further eccentric bolt ( 52 ) is part of the handle-lever joint ( 18 , 19 ) on the pull tab ( 21 , 22 ) and that the securing element ( 31 , 34 ) is designed as an approximately rectangular locking plate ( 47 , 59 ) which extends parallel to the lateral surface of the handle lever ( 15 , 16 ) and in a recess ( 50 , 60 ) of a removable protective handle ( 23 , 24 ) of the handle lever ( 15 , 16 ) is secured. 5. Tool according to claim 4, characterized in that the securing plate ( 44 , 47 , 59 ) has a plurality of openings ( 48 , 49 ) which are rotated relative to one another and / or is designed as an indexable plate ( 46 ). 6. Tool according to one of claims 1 to 5, characterized in that the openings ( 48 , 49 ) in the securing element ( 47 , 59 ) have a hexagonal cross section and that the securing element is provided with a position identifier ( 51 ). 7. Tool according to one of claims 1 to 6, characterized in that the securing element ( 31 , 44 , 47 , 59 ) is also designed as a twisting tool for the eccentric bolt ( 9 , 52 ). 8. Tool according to claim 3, characterized in that the rocker arm ( 54 ) adjacent to the toothed segment ( 37 ) has a further closing movement of the handle lever ( 15 , 16 ) preventing stop ( 58 ) with a counter-stop on the other handle lever ( 16 , 15 ) works together. 9. Tool according to claim 1 or 3, characterized in that the rotatability of the eccentric bolt ( 9 ) and / or the further eccentric bolt ( 52 ) is limited to an angle of approximately 180 °. 10. Tool according to claim 3, characterized in that the radius of the toothing ( 39 ) of the toothed segment ( 37 ) on the rocker arm ( 54 ) is greater than its distance from its yoke-side joint ( 8 ).