The invention relates to a group of different manual pliers. The different manual pliers might differ with respect to the type of processing of a workpiece, the geometry of the processed workpiece, the geometry of the manual pliers and the like. Preferably, the manual pliers are cutting pliers which can be used for cutting workpieces as e.g. cables. In this case the different manual pliers are e.g. designated for different diameters and/or hardnesses of the cable which is to be cut. It is also possible that the different manual pliers comprise different cutting jaws (in particular on the one hand scissor-like open cutting jaws and on the other hand cutting jaws being closed in circumferential direction).
The publication US 2013/0152404 A1 discloses scissors that might be embodied as loppers or manual scissors. The scissors comprise a fixed blade and a movable blade. The movable blade is supported by a swivel bolt in a pivot joint which is located at the fixed blade. The movable blade is actuated by an actuation lever. The actuation lever is supported by a swivel bolt in a pivot joint which is located remote from the pivot joint for the movable blade located at the fixed blade. In one end region the swivel bolts for forming the pivot joint for the movable blade and the actuation lever are held by the fixed blade. In the other end region the swivel bolts are held by a connecting link. An arm extending from the movable blade comprises an angled end region which comprises an inner toothing being curved corresponding to the distance from the pivot joint of the movable blade. This inner toothing meshes with an outer toothing formed by a bending of the actuation lever. The outer toothing is curved corresponding to the distance of the outer toothing from the pivot joint of the actuation lever. Both the arm with the bending as well as the actuation lever with the bending and the formed toothings are formed by a metal sheet. In order to avoid that for the considerable forces acting upon the blades and the actuation lever and the arm due to deformations of the metal sheets the toothings disengage (so that it is no longer possible to drive the blades), the actuation lever and the bending of the arm are coupled to each other by a connecting link. The connecting link is coupled by an elongate hole to the bending of the arm in a way such that the connecting link only comes into effect at the end of the closing stroke of the blades.
U.S. Pat. No. 6,786,117 B1 discloses pliers with two scissor-like pliers bodies being pivoted about a pivot joint. The pliers bodies each form a hand lever and pliers jaws. Here, the pliers jaws are each removably mounted to the associated hand levers. If a couple of pliers jaws of a first type are mounted to the hand levers, at the same time another couple of pliers jaws of a different type is stored between cover plates of the hand levers. It is possible to exchange the pliers jaws of the first type with pliers jaws of the second type. In this way a multifunctional use of the pliers is intended.
Prior art related to ratchet cutters or cable cutters is known from the publications EP 2 357 052 A1 and DE 10 2012 101 758 A1.
The invention relates to a group of manual pliers. The group of manual pliers comprises a first group part with manual pliers (e.g. manual pliers of a type A) as well as a second group part with manual pliers (e.g. manual pliers of a type B). The manual pliers of the first group part and of the second group part (accordingly for the given example the manual pliers of types A and B) are designated and designed for processing different workpieces.
According to the invention, a modular design of the manual pliers of the two group parts is proposed. Here, manual pliers can be formed with two, three or more modules. The single modules of the manual pliers can be manufactured with a large number of parts at reduced costs. A specification of the manual pliers for the group parts (so for the given example for the formation of Type A or B) can then be provided by a combination of different modules.
According to the invention, the manual pliers of the different group parts comprise at least transmission modules having identical designs which increases the number of the same parts. Here, the identical design of the transmission module covers the identical design of single components of the transmission module, the provision of identical interfaces of the transmission module to the other modules, the same dimensions of the transmission module and the same locations and designs of holding devices of the transmission module (e.g. locations and diameters of bores of a housing plate of the transmission module for the accommodation of a holding bolt, a swivel bolt, distance holders and the like).
For a particular embodiment of the invention the transmission modules of the manual pliers of the two group parts which have identical designs comprise identical interfaces for connecting the transmission module to different pliers head modules (for the given example a pliers head module type A and a pliers head module type B). Here, the different pliers head modules have counter-interfaces with designs identical to the interfaces of the transmission modules and serve for the formation of manual pliers of the first group part (manual pliers of type A) on the one hand and for the provision of manual pliers of the second group part (type B) on the other hand. By the use of standardized or unitized interfaces of the transmission modules it is possible to manufacture the transmission module in a standardized or unitized manufacturing process independent on the type of pliers head module to which at a later point in time the transmission module will be assembled.
For an alternative or cumulative embodiment the transmission modules might have identical interfaces for the connection of the transmission module to counter-interfaces of different hand lever modules so that it is possible to form the manual pliers of the different group parts. Accordingly, an individualization of the manual pliers can be accomplished by using the same transmission modules together with different hand lever modules.
Generally, the transmission modules might have any design. For one proposal of the invention, the transmission modules each comprise a housing plate. Swivel bolts are held by the housing plate. By the swivel bolts further components of the manual pliers (in particular components of the transmission module) are supported by the housing plate for being pivoted. For an alternative or cumulative embodiment it is possible that transmission elements of the transmission module which are moved during the actuation of the manual pliers (e.g. a movable hand lever part, a pushing lever and/or a latching lever) can be directly or indirectly born by or linked to the housing plate. For some embodiments all of the components of the transmission module are held or born by the housing plate. For some embodiments the components of the transmission module as far as possible or all of them extend on one side of the housing plate. It is possible that swivel bolts, supporting bolts, distance holders and the like are born in one end region of the same in the housing plate or held by the same. For a particular embodiment of the invention, in the other end region these components are additionally held by a housing plate of the pliers head module or born by the same.
For a further embodiment of this solution the transmission module comprises an opening. For the disassembled pliers head module, through the opening swivel bolts (used for supporting movable transmission elements of the transmission module and/or transmission elements of the transmission modules being moved during the actuation of the manual pliers) are accessible. In an extreme case it is possible that for disassembled pliers head module the swivel bolts and the transmission elements are only covered on one side given by the housing plate of the transmission module. With the exception of this cover the swivel bolts and the transmission elements are freely accessible so that the opening is formed in any region where the housing plate does not extend. With the assembly of the pliers head module the opening is at least partially closed by a housing plate of the pliers head module in the direction transverse to the pliers head plane. It is e.g. possible that in this partially closed state of the opening the swivel bolts and the transmission elements of the transmission module extend between the housing plate of the transmission module and the housing plate of the pliers head module.
For another inventive group of manual pliers at least one transmission element which is moved during the actuation of the hand levers and/or a movable hand lever are/is supported both by the housing plate of the pliers head module as well as by the housing plate of the transmission module for being rotated. In order to mention only one example, it is possible that the support for being rotated is provided by a swivel bolt supporting the transmission element or the movable hand lever and housed or accommodated with its end regions in the two afore mentioned housing plates. Accordingly, the housing plates comprise aligned bores. The connection between a swivel bolt and a bore of the housing plate can be provided by pressing, fixing into place or calking, by a rotatable bearing, e.g. by use of a journal bearing or slide bearing, by a locking or snapping ring arranged at the outer side of the housing plate and the like.
It is generally possible that the housing plates of the transmission module are formed separately from a fixed hand lever or a hand lever plate of a fixed hand lever. In this case the hand lever or the hand lever plate is not a component of the transmission module but instead of another module or forms a component of another module which can be assembled to the transmission module. However, for one inventive embodiment the housing plates of the transmission module are integrally formed as one piece by a hand lever or a hand lever plate. In this way it is possible to simplify the manufacturing process and to avoid a join patch or assembly interface between the housing plate and the hand lever plate.
It is generally possible that the housing plate on the one hand and the hand lever plate on the other hand have a planar design. However, in a preferred embodiment of the invention the housing plate continuous via an offset or crank to the hand lever or hand lever plate. Here, preferably the offset or crank is approximately the half (in particular ±20% or ±10% or ±5 of the half) of the distance of the housing plates of the transmission module and the pliers head module in the assembled state. When choosing these dimensions of the offset or crank, the offset or crank can be used for a compensation. This compensation provides that the housing plates delimit the pliers head in the region of the transmission in a direction transverse to the pliers head plane. At the same time due to the offset or crank it is possible to arrange the hand lever plate in a middle pliers head plane which is arranged approximately in the middle between the two housing plates and which extends approximately in the middle through one of the handles.
Any manufacturing process for the single components of the manual pliers can be used. So, it is e.g. possible to manufacture a base body forming the fixed cutting jaw and a housing plate of the pliers head module in a fine injection molding process. For a particular proposal of the invention, at least one hand lever and/or the housing plate of the transmission module are/is manufactured by punching of a metal sheet which leads to a further reduction of the manufacturing costs.
For the types of manual pliers in the single group parts there are also a lot of options. For a particular inventive solution the manual pliers of the first group part comprise a pliers head module with scissor-like open cutting jaws, whereas manual pliers of the second group part comprise a pliers head module with cutting jaws being closed in circumferential direction.
For the design of the kinematics of the transmission interposed between the hand levers on the one hand and the cutting jaws on the other hand there are a lot of options with any type of transmitting connections and pivoting directions of the related components resulting thereof. For one inventive proposal, in the manual pliers the pivoting direction of a movable hand lever has an orientation opposite to the pivoting direction of an associated movable cutting jaw. Accordingly, it is e.g. possible that the movable hand lever is pivoted in clockwise direction with the closure, whereas the associated movable cutting jaw is pivoted opposite to the clockwise direction.
Also with respect to the location of the joint for the pushing lever there are a lot of different options. For one of the options, the pivot joint for bearing the pushing lever is located at the movable hand lever. In this case the movable hand lever is supported for being pivoted by a housing plate of the transmission module at a location between the pivot joint and a handle of the hand lever.
For a particular proposal of the invention the pliers head modules are each built with an integral base body forming both a housing plate and a fixed cutting jaw. The base body is e.g. manufactured by use of an injection molding process. The transmission module comprises a housing plate which can in particular be manufactured by punching of a metal sheet and/or be formed integrally with the hand lever plate. After the assembly of the pliers head module to the transmission module, at least one swivel bolt (preferably both a swivel bolt for a pivotable support of the movable hand lever and a swivel bolt for the pivotable support of the hand lever) is in one end region born by or fixed at the housing plate of the base body of the pliers head module and in the other end region born by or fixed at the housing plate of the transmission module.
Advantageous developments of the invention result from the claims, the description and the drawings. The advantages of features and of combinations of a plurality of features mentioned at the beginning of the description only serve as examples and may be used alternatively or cumulatively without the necessity of embodiments according to the invention having to obtain these advantages. Without changing the scope of protection as defined by the enclosed claims, the following applies with respect to the disclosure of the original application and the patent: further features may be taken from the drawings, in particular from the illustrated designs and the dimensions of a plurality of components with respect to one another as well as from their relative arrangement and their operative connection. The combination of features of different embodiments of the invention or of features of different claims independent of the chosen references of the claims is also possible, and it is motivated herewith. This also relates to features which are illustrated in separate drawings, or which are mentioned when describing them. These features may also be combined with features of different claims. Furthermore, it is possible that further embodiments of the invention do not have the features mentioned in the claims.
The number of the features mentioned in the claims and in the description is to be understood to cover this exact number and a greater number than the mentioned number without having to explicitly use the adverb “at least”. For example, if an element is mentioned, this is to be understood such that there is exactly one element or there are two elements or more elements. Additional features may be added to these features, or these features may be the only features of the respective product.
The reference signs contained in the claims are not limiting the extent of the matter protected by the claims. Their sole function is to make the claims easier to understand.
In the following, the invention is further explained and described with respect to preferred exemplary embodiments illustrated in the drawings.
A swivel bolt 10 for the formation of a pivot joint 52 is held by the housing plate 9. By the swivel bolt 10 the movable hand lever 3 is pivotally supported by the housing plate 9 and so by the fixed hand lever 2. Additionally, an opening spring 11 (here a leg of a spiral spring or leg spring) is supported by the swivel bolt 10. The housing plate 9 carries a bolt 12 which extends through a biasing spring 13 (here also a spiral spring or leg spring). Furthermore, the housing plate 9 carries distance holders 14, 15 formed by stepped bolts or sleeves. A latching lever 16 is supported by a swivel bolt 17 for the provision of a pivot joint 53 for being pivoted relative to the housing plate 9. With stepped end regions protruding on both sides of the latching lever 16 the swivel bolt 17 at the same time forms another distance holder 18. By a pivot joint 20 a pushing lever 19 is pivotally mounted to the hand lever plate. The pivot joint 52 formed with the swivel bolt 10 is located between the pivot joint 20 for the support of the pushing lever 19 and the hand lever 7. For the shown embodiment, the pivot joint 20 is formed with a divided circular cutting of the hand lever plate 5 with a circumferential angle being slightly larger than 180°. An end region of the pushing lever 19 having the shape of a part of a cylinder is pressed or “clipsed” into the cutting.
By a pivot joint 21 a fixing lever 22 is linked to the hand lever 3. The pivot joint 21 is located between the handle 7 and the swivel bolt 10.
The hand lever 3, the fixing lever 22, the latching lever 16 and the pushing lever 19 can be pivoted about pivot axes being parallel to each other and having an orientation perpendicular to the pliers head plane. During a pivoting movement of this type the transmission elements or the hand lever plate 5, the latching lever 16 and the pushing lever 19 are at least partially guided by the housing plate 9. The opening spring 11 and the biasing spring 13 are biased by a torsional moment. The vector of the torsional moment also has an orientation vertical to the pliers head plane. In the partially disassembled state shown in
In the operational state shown in
Upon application of actuating forces to the hand levers 2, 3, the hand levers 2, 3 are moved towards each other in a first part of the working stroke. This has the consequence that by the engagement with the toothings 31, 32 the pushing lever 19 applies a closing force upon the movable cutting jaw 23. The closing force comprises a component having an orientation in circumferential direction and in closing direction around the pivot axis of the pivot joint 25. Accordingly, a partial closure of the cutting jaws 23, 26 with a reduction of the cross-sectional surface of the cutting contour 29 will be caused. In this way, a partial cutting of the workpiece which is located in the accommodation 28 is provided. During the closing movement of the movable cutting jaw 23, the latching lever 16 is able to move elastically in outer direction. The latching nose 30 slides (dependent on the extent of the movement of the movable cutting jaw 23) over the toothing 32 with successive engagements into the passed intermediate tooth spaces of the toothing 32. If instead the closing actuating forces are reduced and removed and instead the hand levers 2, 3 are again opened for a further part of the working stroke of the manual pliers 1 with the engagement of the latching nose 30 of the latching lever 16 into the last reached intermediate space between the adjacent tooth of the toothing 32, a previously reached closing position of the cutting jaws 23, 26 is secured. During this opening movement, the pushing lever 19 is able to move elastically and the toothing 32 of the pushing lever 19 is able to slide over the toothing 32 of the movable cutting jaw 23. In this way, during the opening movement the point of engagement of the toothing 32 of the pushing lever 19 with the toothing 32 of the cutting jaw 23 changes. Then, for the next part of the working stroke, the hand levers 2, 3 are again closed. With this closing movement (corresponding to the explanation of the previous part of the working stroke) the pushing lever 19 is able to cause a further closure of the cutting jaws 23, 26 with a sliding movement of the latching nose 30 of the latching lever 16 over the toothing 32. A plurality of working strokes of this type will then be successively provided until the cutting contour has been completely closed so that the workpiece is completely cut.
If despite of the application of high actuating forces upon the hand levers 2, 3 it is not possible to completely cut the workpiece, it may be required to interrupt the actuation process before running completely through the working stroke. Due to the extensive compression of the workpiece, the interruption of the actuation in the beginning leads to an elastic opening movement of the cutting jaws 23, 26. During this elastic opening movement the toothing 31 of the pushing lever 19 will be able to slide along the toothing 32. However, an opening movement of this type is not allowed by the latching lever 16 (or dependent on the position of the latching nose 30 relative to the toothing 32 only permitted to a limited extent). The latching nose 30 of the latching lever 16 engages in a blocking fashion into the toothing 32 of the cutting jaw 23 so that a continuation of the elastic opening movement of the cutting jaws 23, 26 is not allowed. Due to the in some circumstances large pressing force between the latching nose and the toothing 32 caused by the elastic expansion of the workpiece, it is possible that a simple manual actuation of the latching lever 16 in opening direction for allowing a further opening of the cutting jaws 23, 26 and for allowing a removal of the partially cut workpiece is not possible. This situation is shown in
In order to allow the release of the latching lever 16 and the further opening of the cutting jaws 23, 26, according to
For the opening of the hand levers 2, 3 the maximal opening position is not defined by the contact of the protrusion 33 of the hand lever plate 5 with the lever part 34 of the latching lever 16. Instead, for actuated latching lever 16 the protrusion 33 is able to pass the lever part 34 with the opening movement of the hand lever 3. Accordingly, a second maximal opening angle is allowed which is larger than the first maximal opening angle of
When starting from the second maximal opening position, with a small closure of the hand levers 2, 3 the contact surface 35 of the protrusion 33 slides along the associated contact surface 33 of the lever part 34 in a direction away from the swivel bolt 17. Here, the friction force between the contact surface 35 and the contact surface 36 only depends on the force of the biasing spring 13. Preferably, for the provision of the mentioned sliding movement between the contact surfaces 35, 36 without a simultaneous considerable pivoting movement of the latching lever 16, the contact surface 35 is shaped concentrically to the pivot axis of the pivot joint 52. If at the end of the sliding movement the protrusion 33 and the lever part 34 do not engage each other, the actuating force 16 comes into effect by pivoting the latching lever 16 towards the tooting 32 for the provision of the engagement of the latching nose 30. At the same time, the outer front side 69 of the lever part 34 (again) forms a stop 67 for the protrusion 33 for limiting the opening position of the hand levers 2, 3 to the first maximal opening position.
It is possible that with the movement of the hand lever 3 into the second maximal opening position it is not only the latching lever 16 which is pivoted away from the toothing 32. Instead, corresponding to
If the hand levers 2, 3 have been closed, it is possible to pivot the fixing lever 22 about the pivot joint 21 in inner direction so that the fixing lever 22 engages into a recess of the cutting jaw 23 (here not shown) with a positive form lock for fixing the position of the hand lever 3. This might lead to advantages as a compact storage of the manual pliers with closed hand levers 2, 3 (e.g. in a tool box).
Depending on whether
or
different stops 67, 68 and contact surfaces for the hand lever plate 5 may become effective:
For manual pliers according to the prior art (e.g. DE 43 03 180 C1), the closure of the hand levers is provided by a movement of the movable hand lever in clockwise direction leading to an actuation of the movable cutting jaw in the same direction, so here also in the clockwise direction. Instead, for the embodiment shown here, the movement of the movable hand lever 3 in clockwise direction leads to a simultaneous movement of the movable cutting jaw 23 in counter-clockwise direction. This is the case because for the above mentioned prior art the pivot joint for the pushing lever 19 is located between the pivot joint 10 for the linkage of the hand lever 3 and the handle 7. Instead, for the embodiment shown here, the pivot joint 10 for the linkage of the hand lever 3 is located between the pivot joint 20 for the linkage of the pushing lever 19 and the handle 7. This leads to the result that according to the prior art the pushing lever force component which is applied by the pushing lever 19 upon the toothing and which causes a moment about the pivot joint 52 has an orientation opposite to the actuating force component which is applied by the user upon the hand lever 3 and which is effective with respect to the pivot joint 52. Instead, for the embodiment shown here, the pushing lever force component 55 applied by the pushing lever 19 upon the toothing (which causes a moment with respect to the pivot joint 52) has the same direction as the actuating force component 56 which is applied by the user upon the hand lever and which has an effect with respect to the pivot joint 52. For the embodiment known from the prior art the movable hand lever forms only a pivot arm with respect to the pivot joint for the linkage of the movable hand lever to the fixed hand lever which is biased on the same side of the pivot joint both by the actuating force component as well as by the pushing lever force component are applied. Instead, for the shown embodiment the hand lever 3, respectively the hand lever plate 5 form lever parts on both sides of the pivot joint 52 wherein the pushing lever 19 is linked to one lever part so that the pushing lever force component 55 acts upon this lever part, whereas the actuating force component 56 is applied to the other lever part.
The latching lever 16 integrally and directly forms an actuation means 57 which is in particular an end region of the latching lever 16 which protrudes from the pliers head and which is accessible from the outside. Accordingly, here the unlatching of the latching lever 16 is not provided by another component and/or an interposed transmitting connection.
A spring base of the biasing spring 13 biases the pushing lever 19 towards the toothing of the movable cutting jaw 23. The other spring base of the biasing spring 13 biases the latching lever 16 towards the toothing 32 of the movable cutting jaw 23. Accordingly, the biasing spring 13 is used in a multifunctional way.
According to the invention, on the one hand the multifunctional biasing spring 13 is used for biasing both the latching lever 16 as well as the pushing lever 19 and on the other hand a separate opening spring 11 are used for biasing the hand levers 2, 3 in opening direction.
In the open position according to
The movable cutting jaw 23 and the movable hand lever 3, respectively the hand lever plate 5 are preferably pivoted in the same plane which is located between the two housing plates 9, 27. Preferably, also the latching lever 16 and the pushing lever 19 are pivoted in this plane. For all of the possible pivoting angles of the hand lever plate 5 and for a viewing direction perpendicular to the pliers head plane there is no overlap of on the one hand the hand lever plate 5 and the components moved therewith and on the other hand of the movable cutting jaw 23.
In order to reduce the diversity of components, simplify the storage and simplify the manufacturing process, the manual pliers 1 are manufactured from modules or in a modular system. Here, the manual pliers 1 comprise a pliers head module 38, a transmission module 39 and at least one hand lever module 40.
The transmission module 39 comprises transmission elements as the latching lever 16, the pushing lever 19 and at least the part of the hand lever plate 5 forming the pivot joint 20, the distance holders 14, 15, 18 and/or the swivel bolts 10, 17 and/or the bolt 12. These elements can be held in a loss-proof fashion or only loosely linked before the connection of the transmission module 39 with other modules. The transition module 39 here does not have a design being closed on both sides of the pliers head plane. Instead, the transmission module 39 is only on one side limited by the housing plate 9, whereas the afore mentioned components of the transmission module 39 are freely accessible from the other side via an opening 63. Preferably, the distance holders 14, 15, 18, the bolt 12, the swivel bolt 10 and the swivel bolt 17 are only housed, born or held in one of their end regions in the housing plate 9, whereas the afore mentioned other components are supported by these components and the other end region of these components is freely accessible before the assembly of the pliers head module 38.
According to
According to
The pliers head module 38a is a so-called front-cutting pliers head module wherein the accommodation 28 formed by the cutting jaws 23, 26 is not closed in circumferential direction. Instead, here the accommodation 28 is open (e.g. U-shaped or V-shaped). In contrast, the pliers head modules 38b, 38c are looping, entangling or closed pliers head modules, wherein the cutting jaws 23, 26 delimit or define an accommodation 28 which is closed in circumferential direction at the beginning of the working stroke as well as during the whole working stroke. Here, the pliers head modules 38b, 38c differ in their size of the cutting jaws 23, 26, the formed accommodation 28, the cutting contour 29 and with respect to the workpieces and geometries of the workpieces that can be processed with these pliers head modules 38b, 38c.
According to
A bore 42 serves for housing the distance holder 14. A bore 43 serves for housing the swivel bolt 10. A bore 44 serves for housing the swivel bolt 17 or distance holder 18, whereas an adjacent bore 45 serves for housing the bolt 12. Another bore 45 located in the lower end region of the housing plate serves for accommodating the distance holder 15. Another bore 46 serves for housing an end region of a spring base of the opening spring 11, here a leg of the spiral spring or leg spring.
For the assembly of the respective pliers head module 38a, 38b, 38c, the pliers head module 38a, 38b, 38c is approached to the base module 41 from the open side of the transmission module 39 with an orientation parallel to the housing plate 9 of the transmission module 39. In the end the end regions of the swivel bolt 17, the distance holder 18, bolt 12, swivel bolt 10, distance holder 14, the opening spring 11 and the distance holder 15 enter into the associated bores 42 to 46. A fixation can be provided by a crimping or additional securing measures (e.g. screwing, widening and the like). The end position of the housing plates 9, 27 with a defined distance of the housing plates 9, 27 from each other is defined by the distance holders 14, 15, 18. In any case, with the assembly of the housing plate 27 the components are caught or trapped in a loss-proof fashion between the housing plates 9, 27. Moved components are guided between the housing plates 9, 27, and the end regions of the swivel bolt 17, distance holders 18, bolts 12, swivel bolts 10, distance holders 14 and distance holders 15 are each held in a housing plate 9, 27.
Preferably, the housing plate 27 of the pliers head module 38 is equipped with an additional bore 47 which does not fulfill any function for the embodiment according to
According to
Differing from the base module 41b the base module 41a comprises hand lever extensions 48, 49 which are plate-like extensions, which partially overlap the hand layer plates 4, 5 and which are connected to the hand lever plates 4, 5 (in particular by riveting, screwing, adhering and the like). Instead, for the base module 41c reinforcements 50, 51 are provided in the region of the hand levers 2, 3. In the region of the hand levers 2, 3 the reinforcements 50, 51 extend parallel to the hand lever plates 4, 5. The reinforcements 50, 51 are held with a defined distance by the hand lever plates 4, 5. For this purpose, in the end region facing towards the transmission module 39 the reinforcement 50 is supported via the distance holder 15 at the housing plate 9. Additionally, another distance holder is used (here not shown) which is housed in the bore 47 of the housing plate 27 and a corresponding bore of the reinforcement 50. An additional mounting (in particular screwing, riveting or adhering connection) can be provided in the region of the handles 2, 3 (in particular under use of additional distance holders). The corresponding applies for the connection between the reinforcement 51 to the hand lever plate 5. Also here a connection between the reinforcement 51 and the hand lever plate 5 might be provided by the swivel bolt 10 and a swivel bolt used for building the pivot joint 21.
For the embodiments described above, the housing plate 9 and the hand lever plate 4 have an integral design. Instead,
In the state disassembled from the pliers head module 38 the transmission module 39 comprises an interface 58 by which it is possible to mount the transmission module 39 to a corresponding counter-interface 59 of a pliers head module 38. Here the interface 58 is formed by the housing plate 27. The interface 58 of the transmission module 39 is preferably formed by the free end regions of the distance holders 14, 15, 18, the swivel bolt 10 and the bolt 12. Instead, the counter-interface 59 is formed with the bores 42 to 47. In a corresponding way the transmission modules 39 comprise interfaces 60 which can be coupled to identical counter-interfaces 61 of different hand lever modules 40a, 40b, 40c. Here, the interfaces 60 are formed by bores and/or the distance holder 15 and further bores 62 to which the hand lever modules 40a, 40b, 40c can be assembled.
Preferably, the housing plate 27 of the pliers head module 38 integrally forms the fixed cutting jaw 26. Preferably, the pliers head module 38 consists only of a base body 66 formed with the housing plate 27 and the fixed cutting jaw 26 (wherein the base body 66 preferably has a planar design), the movable cutting jaw 23 and the components required for the formation of the pivot joint 25. Preferably, the base body 36 which forms the cutting jaw 26 and the housing plate 27 is a precision casting part. Other components (in particular the hand lever plates 4, 5 with the housing plate 9) can be manufactured by punching.
For the embodiments of
In the plan view of
Manual pliers 1 of the present type are also denoted as “ratchet cutters”.
In the pushing direction of the pushing lever 19 the latching nose 30 of the latching lever 16 engages into the toothing 32 of the movable cutting jaw in a position in front of the pushing lever 19.
The latching lever 16 also comprises an elongate lever part additional to the lever part 34. The end region facing away from the pivot joint 53 of the elongate lever part forms the actuation means 57. The latching nose 30 is formed at this lever part in a position between the pivot joint 53 and the actuation means 57. This lever part forms approximately a right angle to the lever part 34.
For the shown embodiment the latching lever 16 comprises only one latching nose 30. For a modified embodiment the latching lever 16 comprises a latching toothing which engages the toothing 32 of the movable cutting jaw 23.
A transmission is interposed between the hand levers 2, 3 and the cutting jaws 23, 26. The transmission comprises the pushing lever 19 and the latching lever 16 which form transmission elements being located parallel to each other in the force flow. The transmission is laterally open. In the assembled state the transmission is limited transverse to the pliers head plane in a respective direction by a housing plate 9, 27. Instead, without assembled pliers head module 38 the transmission module 39 is limited in a direction transverse to the pliers head plane only in one single direction by the housing plate 9.
Many variations and modifications may be made to the preferred embodiments of the invention without departing substantially from the spirit and principles of the invention. All such modifications and variations are intended to be included herein within the scope of the present invention, as defined by the following claims.
Number | Date | Country | Kind |
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15191261 | Oct 2015 | EP | regional |
This is a divisional application which claims priority to U.S. patent application Ser. No. 15/299,697, filed Oct. 21, 2016, which application claims priority to European patent application No. EP 15 191 261.5 filed Oct. 23, 2015.
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