This application claims priority to co-pending European Patent Application No. EP 18 190 465.7 filed Aug. 23, 2018.
The present invention relates to pressing tongs or crimping pliers. By means of pressing tongs or crimping pliers, a workpiece can be pressed or crimped by manually actuating hand levers.
Crimping pliers especially serve for establishing a permanent mechanical connection and electrical contact. This is achieved preferably by crimping a plug to a cable or an electrical conductor of any kind. Depending on a profile of dies employed, different crimping processes can be executed with the crimping pliers and in particular different types of crimping contours can be produced. For example, the crimp can be a closed crimp, in which the conductor is inserted into a closed crimping zone of a plug or into a closed sleeve and is crimped by plastic deformation of the crimping zone or the sleeve. It is also possible that an open crimp is produced, in which the plug comprises an open crimping zone into which the conductor can be inserted from above. To mention only some examples not limiting the invention, with the crimping tool workpieces such as
In addition to establishing the electric connection between cable or conductor and plug, a mechanical connection may be established by means of a so-called isolation crimp. A closed isolation crimp or an open isolation crimp (especially a V crimp or B crimp, O crimp or OV crimp) may be employed. With regard to further information
Generic pressing tongs, on the contrary, preferably serve to establish fluid-tight mechanical connections in fluid technology—e.g. in ductwork systems—for example in order to connect pipes to one another or to fluidic connector plugs. By means of the pressing tongs, the pipes to be connected or a fitting to provide mechanical connection and fluid-tight sealing are plastically deformed. Exemplary embodiments of generic pressing tongs can be seen from documents DE 197 09 639 A1, DE 198 34 859 C2, DE 199 24 086 C2, corresponding to U.S. Pat. No. 6,286,358 B1, DE 199 24 087 C2, corresponding to U.S. Pat. No. 6,289,712 B1, DE 199 63 097 C1, corresponding to U.S. Pat. No. 6,474,130 B2, DE 103 46 241 B3, EP 2 995 424 A1, corresponding to U.S. Pat. No. 9,864,948 B2.
DE 10 2007 001 235 B4, corresponding to U.S. Pat. No. 8,127,589 B2, discloses non-generic pressing tongs in which the pliers jaws are pivotably connected to each other by a pivot joint. A first hand lever is linked to the pivot joint. A second hand lever is linked to a first pliers jaw by means of an angulate end portion. Finally, a third hand lever is arranged between the first hand lever and the second hand lever in an open position of the pliers jaws. The third hand lever is linked to a stabilizer link in an angulate end portion, where the other end portion of the stabilizer link is linked to a second pliers jaw. In the region of their angulate portions, the first hand lever and the third hand lever are coupled to one another via a pressure lever. The pressure lever is pivotably linked to each hand lever, where a pivot bolt for coupling the pressure lever to the third hand lever is fixed to the first hand lever. In order to initiate a closing motion of the pliers jaws, the three hand levers in two consecutive partial closing strokes may use different toggle lever drives optimized for each partial closing stroke with regard to forces. The three hand levers and the different toggle lever drives work as follows: In a first partial closing stroke, the third hand lever is pivoted towards the first hand lever. The joint between the end portion of the third hand lever and the stabilizer link forms a toggle joint of the first toggle lever drive, which is formed with the third hand lever and the stabilizer link. When the end of the first partial closing stroke is reached, the first hand lever and the third hand lever are parallel to one another and the first toggle lever drive as well as the first hand lever and the third hand lever are fixed in position by the enclosing hands of the user or a suitable switching device. In the subsequent second partial closing stroke, the second hand lever is pivoted towards the first and the third hand lever. A second toggle lever drive is in connection with the other pliers jaw. In this second toggle lever drive, a toggle lever is formed by the pressure lever while the other toggle lever is formed by the angulate end portion of the second hand lever and the toggle joint is formed by the pivot joint between the pressure lever and the second hand lever. The three hand levers therefore enable different partial closing strokes of the pliers jaws with different closing motions of a sub-combination of the three hand levers each.
U.S. Pat. No. 3,688,553 relates to pressing tongs for pressing a fitting for a ductwork system. A die that in a closed state comprises a circular cross section is formed with three die parts, which each limit a partial circumference of the circular cross section of the die. Two pivoting jaws supported pivotably on a pliers head formed with housing plates form a first and a second die part. These die parts each form a quarter part of the cross section of the die, which in a closed state is circular. The third die part forming a semicircle of the cross section of the die, which in a closed state is circular, is provided by a push rod. For a first embodiment of the pressing tongs, two hand levers are linked to the push rod via a pivot bolt in their end portions. With a distance to this linking point, end portions of draw shackles are linked to the hand levers, the other end regions of which in turn are linked to the housing plates of the pliers head. By means of pivoting the hand levers towards each other, a motion of the push rod in the closing direction of the die can therefore be induced. The push rod comprises actuation surfaces, which are inclined with respect to a sliding direction of the push rod. Rollers supported on end regions of the crimping jaws roll off these actuation surfaces. The sliding motion of the push rod induced by the closing motion of the hand levers therefore on the one hand leads to a motion of the third die part formed by the push rod in the sliding and closing direction and via the actuation by the actuation surfaces on the other hand leads to the closing motion of the crimping jaws. The position of the actuation surfaces is chosen in such a way that at first the fitting is pressed into an elongated cross section by the crimping jaws and the die part formed by the push rod only comes into effective interaction with the fitting and only crimps the elongated cross section induced previously into the intended circular cross section when the closed position of the crimping jaws is reached. For a second embodiment, the actuation surfaces of the push rod are not employed so that the crimping jaws are not actuated via contact of rollers of the crimping jaws with the actuation surfaces. Accordingly, by means of the pivoting of the hand levers towards each other, only the third die part formed by the push rod is actuated. In this embodiment, a third hand lever is present, which in the end region arranged in the pliers head has an angulate shape. In the region of the angulation, the third hand lever is linked to a pressing jaw via a pivot joint. The free end region of the angulation is pivotably connected to an actuation shackle via a pivot bolt. In another end portion, in turn, the actuation shackle is linked to the other crimping jaw via a pivot bolt. The pivot bolt coupling the third lever to the actuation shackle is guided in an elongated hole of the push rod. When running through a crimping stroke in order to crimp a fitting, the two hand levers as well as the third hand lever are opened so that it is possible to insert the fitting into the jaws of the crimping pliers. Subsequently, the third hand lever is closed while the other two hand levers are open. Closing the third hand lever results in the crimping jaws being closed and the fitting being deformed into an elongated crimped state. The closed position of the third hand lever, once reached, self-locks. Now, the two hand levers can be pivoted. In this way, the push rod is moved and by means of the front face of the push rod the fitting is deformed into the intended circular cross section.
Further prior art is known from DE 693 19 628 T2, corresponding to U.S. Pat. Nos. 5,509,291 A, and 5,012,666 A.
According to the invention, pressing tongs or crimping pliers for crimping or pressing a workpiece comprise a fixed pliers part with a fixed hand lever and a fixed pliers jaw, a movable hand lever, a movable pliers jaw, a further lever, a drive mechanism, a drive connection and an insertion and/or extraction position. The movable hand lever can undergo a pivoting motion towards the fixed hand lever, the further lever can undergo a pivoting motion and the movable pliers jaw can undergo a closing motion and an opening motion. The movable hand lever is coupled to the movable pliers jaw via the drive mechanism in such a way that the drive mechanism is arranged to convert the pivoting motion of the movable hand lever towards the fixed hand lever into the closing motion of the movable pliers jaw. When the closing motion of the movable pliers jaw is executed, the workpiece can be crimped or pressed. The further lever is coupled to the movable pliers jaw—forming the drive connection—in such a way that the drive connection is arranged to convert the pivoting motion of the further lever into the opening motion of the pliers jaw, where the opening motion of the pliers jaw brings the pressing tongs or crimping pliers into the insertion and/or extraction position.
With the novel pressing tongs or crimping pliers, it is possible to provide manually actuated pressing tongs or crimping pliers which are improved with regard to
The invention relates to pressing tongs or crimping pliers of any mode of construction (cp. also the prior art summarized above), as long as they comprise a fixed pliers part with a fixed hand lever and a fixed pliers jaw. The fixed pliers part may have one or more parts. Furthermore, the pressing tongs or crimping pliers according to the invention comprise a movable hand lever. The movable hand lever is coupled to a movable pliers jaw by means of a drive mechanism. The drive mechanism may be realized as any geared connection with a suitable upward or downward transmission of forces and displacements. The movable hand lever is coupled to the movable pliers jaw via the drive mechanism in such a way that when the movable hand lever is pivoted towards the fixed hand lever, a closing motion of the movable pliers jaw can be initiated. With this closing motion of the movable pliers jaw, a workpiece is crimped or pressed between the fixed pliers jaw and the movable pliers jaw, especially where dies are held or formed by the pliers jaws.
Surprisingly, the invention proposes to equip the pressing tongs or crimping pliers with a further lever (in addition to the fixed hand lever and the movable hand lever). The further lever is coupled to the movable pliers jaw via a drive connection. The coupling via the drive connection is realized in such a way that when the further lever is pivoted an opening motion of the pliers jaws into an insertion and/or removal position can be initiated.
Within the framework of the invention it is e.g. possible for the motion of the further lever to be permanently coupled to the motion of the movable hand lever, so that when one of the two levers is actuated the movable hand lever and the further lever are pivoted to the same amount or to different amounts, where a transmission ratio is fixedly set, set by construction parameters or variable. It is also possible, however, for the motion of the further lever to be decoupled from the motion of the movable hand lever over a partial stroke or the entire stroke so that is possible to pivot the further lever while the movable hand lever is not pivoted along with it (and/or the reverse).
The different levers provided may be used for different purposes within the framework of the invention: While due to manual actuation of the movable hand lever the crimping or pressing of a workpiece may be initiated via a closing motion of the pliers jaws, the manual actuation of the further lever may be used in order to initiate an opening motion of the pliers jaws into an insertion and/or removal position, in which insertion and/or removal of a workpiece is enabled or simplified.
The further lever is preferably arranged within the reaching area of a hand which encloses or grasps the fixed hand lever and/or the movable hand lever, or of a finger of this hand, so that the actuation of the movable hand lever in order to initiate the closing motion of the pliers jaws for crimping or pressing a workpiece can be initiated e.g. without any change of the hand position or with minimal hand effort on the one hand and on the other hand by actuating the further lever the opening motion of the pliers jaws into the insertion and/or removal position can be initiated.
The further lever may have any shape (e.g. a straight or angulate shape), have any length and/or may be arranged at any position on the pressing tongs or crimping pliers. For one embodiment of the pressing tongs or crimping pliers, the further lever is an additional hand lever arranged between the fixed hand lever and the movable hand lever. This embodiment uses an interspace that is present between the fixed hand lever and the movable hand lever anyway in order to accommodate the additional hand lever. In this case, the additional hand lever and the movable hand lever are pivoted in the same pivoting plane. It is possible for the end portion of the additional hand lever turned away from the pliers head of the pressing tongs or crimping pliers to be arranged within the pivoting circle of the corresponding end portion of the movable hand lever or without or within the pivoting circle.
The actuation kinematics for the actuation of the additional hand lever and the transmission of the motion of the additional hand lever onto the movable pliers jaw may be realized in any way. For one embodiment, the additional hand lever is coupled to the movable pliers jaw via the drive connection in such a way that when the additional hand lever is pivoted towards the fixed hand lever, an opening motion of the pliers jaws may be initiated. Without intending this to limit the invention, a possible effect of this embodiment is explained by means of the following example: If the palm of a hand of the user rests against the outer surface of the fixed hand lever, the user can reach around the additional hand lever with at least one finger and with the force of the at least one finger pivot the additional hand lever towards the fixed hand lever, in which way the opening motion of the pliers jaws is achieved and the insertion and/or removal position can be initiated and the workpiece can be inserted into or removed from the pliers jaws or the corresponding dies. If the closing motion of the pliers jaws for crimping or pressing the workpiece is to be initiated, the user removes his or her fingers from the additional hand lever and puts them against the movable hand lever from the outside while the palm of the hand may still rest on the fixed hand lever from the outside. The user can then apply the necessary forces onto the movable hand lever with his or her fingers in order to initiate the closing motion of the pliers jaws for crimping or pressing a workpiece.
The drive connection via which the additional hand lever is coupled to the movable pliers jaw may be realized as any geared connection with an upward or downward transmission ratio. For one embodiment of the pressing tongs or crimping pliers, the drive connection is a rigid connection of the additional hand lever to the movable pliers jaw. It is possible e.g. for the additional hand lever to be realized as an integral part with the movable pliers jaw or for the additional hand lever and the movable hand lever to be realized as separate parts which are directly or indirectly and detachably or non-detachably, but in any case with a rigid connection, connected to each other. In this way, a constructively simple but dependable drive connection can be provided.
For a further proposal, the pressing tongs or crimping pliers comprise an opening spring. The opening spring is effective onto the movable pliers jaw and/or the movable hand lever (directly or indirectly) in such a way that the movable pliers jaw and/or the movable hand lever are/is automatically moved from a closed position into an opening direction. This is especially advantageous when the pressing tongs or crimping pliers have reached the closed position, in which the workpiece is completely crimped or pressed. By means of the opening spring, an automatic opening of the movable pliers jaws and/or the movable hand lever can then be initiated if the manual forces applied to the fixed hand lever and the movable hand lever are reduced or removed, which increases ease and convenience of use of the pressing tongs or crimping pliers.
It is also possible that the pressing tongs or crimping pliers comprise a closing spring. The closing spring is effective onto the movable pliers jaw and/or the further lever in such a way that the movable pliers jaw is biased in the closing direction and/or the further lever is automatically moved out of a closed position towards an open position. A closing spring force effected by the closing spring and effective onto the movable pliers jaw in the closing direction can e.g. be used to reduce or remove the biasing of the further lever by the user after initiating the insertion and/or removal position by actuation of the further lever and insertion of the workpiece into the dies, while the closing spring force biases the movable pliers jaw in the closing direction. Therefore, the workpiece is clamped between the two pliers jaws with the closing spring force, in which way it can be fixed between the dies in the position and/or orientation that was previously manually induced. If it is fixed between the pliers jaws in such a way, it may also be possible for the workpiece to be readjusted by the user pushing the workpiece into another orientation and/or position, which then leads to the pliers jaws being moved outwards against the effect of the closing spring or to a sliding motion of the workpiece with respect to the dies biased by the closing spring that is subject to friction.
An opening spring and/or a closing spring may be formed by a single spring or several springs, which then may be arranged in a parallel connection or a series connection. The at least one spring may be made of any suitable material (e.g. metal, plastic, elastomer material, composite material). It may be a pressure spring, a tension spring, a rotating angle spring, a torsion spring or any other spring. The at least one spring may be integrated into the force flow of the pressing tongs or crimping pliers at any position. At least one spring with a linear or a non-linear spring characteristic may be employed.
For one embodiment of the pressing tongs or crimping pliers, the closing spring is linked to the fixed pliers part with one spring base while with the other spring base it is linked to the movable pliers part. Alternatively or cumulatively it is possible for the opening spring to be linked to the fixed pliers part with one spring base while with the other spring base it is linked to the movable hand lever.
There are also embodiments in which the opening spring and the closing spring are realized by a single integral spring element, cp. especially the non-pre-published European patent application with application number EP 18 166 729.6.
The invention includes embodiments in which the drive mechanism for the coupling of the movable hand lever to the movable pliers jaw is permanently effective so that when the movable pliers jaw is moved by the further lever, due to the coupling by the drive mechanism the movable hand lever is also moved. For another embodiment of the pressing tongs or crimping pliers, it is proposed that the drive mechanism, via which the movable hand lever is coupled to the movable pliers jaw, comprises a play. The play is limited by a stop. By means of the stop and the play, the following advantageous effect may be initiated: While the movable hand lever is being pivoted towards the fixed hand lever along with a closing motion of the pliers jaws into the closed position—that is, during crimping or pressing of the workpiece—a drive element of the drive mechanism rests against the stop, in which way the play is not effective and a transmission of the pressing or crimping force is possible without play. If, however, the further lever is pivoted into the insertion and/or removal position with an opening motion of the pliers jaws, the drive element moves away from the stop so that a motion occurs making use of the play. This leads to the result that the movable hand lever (in spite of the opening motion of the pliers jaws) is not moved along during the opening motion in order to initiate the insertion and/or removal position by means of actuation of the further lever, which possibly simplifies operation of the pressing tongs or crimping pliers.
The play may have any suitable value so that the effect explained only occurs for a partial motion or for the entire motion explained. For one proposal of the invention, the play is at least of such an amount that in an open position of the moved hand lever, depending on the position of the further lever and caused by the further lever, the movable pliers jaw can be moved from the closed position into the open position without the movable hand lever leaving its open position. In this way, it can be guaranteed that there is no change in the pivoting angle of the movable hand lever during the entire actuation of the further lever.
For another proposal of the invention, the opening spring in an open position of the movable hand lever does not exert an opening spring force onto the movable pliers jaw, which leads to the result that the closing spring force of the closing spring is not reduced by the effect of the opening spring. On the other hand, the closing spring exerts a closing spring force onto the movable pliers jaw. This closing spring force in a closed position of the further lever has a minimum while in an open position of the further lever it has a maximum. The closing spring may be relaxed in the closed position of the further lever, so that the minimum closing spring force is zero. It is also possible, however, for the closing spring force to be already larger than zero in the closed position of the further lever so that the closing spring is always pre-tensioned. In this way, the closing spring can e.g. guarantee that when a small workpiece is inserted into the dies formed or held by the pliers jaws the workpiece is secured between the dies with a sufficient closing spring force.
It is possible within the framework of the invention that by holding the workpiece by means of the closing spring force of the closing spring the use of a so-called positioner or locator in order to guarantee the correct position or orientation of the workpiece relative to the dies can be rendered superfluous.
Providing the play and a limiting stop can be realized in any way. For one embodiment of the pressing tongs or crimping pliers, the drive mechanism comprises an elongated hole which provides the play. In this case, the stop is realized by an end portion of the elongated hole. This embodiment is a simple but dependable option for providing the play and the stop.
As explained before, in the pressing tongs or crimping pliers any drive mechanism may be employed. Preferably, the drive mechanism is a toggle lever drive. In this case, it is possible that the play and the stop are provided in the toggle lever drive by the fact that the toggle lever drive comprises a pivot bolt, which may be a pivot bolt of a pivot joint for a toggle lever or a pivot bolt for forming the toggle joint. The pivot bolt in this case may be accommodated in an elongated hole, in which way the necessary play and the stop may be provided.
For another embodiment of the pressing tongs or crimping pliers it is suggested for the pressing tongs or crimping pliers to comprise a forced locking mechanism. Forced locking mechanisms serve for securing a closed position of the pliers jaws once it is reached during crimping or pressing of the workpiece if during the pressing or crimping stroke the actuation force is temporarily reduced by the user or the hand is removed from the pressing tongs or crimping pliers. On the other hand, the forced locking mechanism is designed to enable reopening the pressing tongs or crimping pliers when a closed position has been reached. Within the framework of the invention, the effect and the realization of the forced locking mechanism may be specifically adapted to the requirements present as follows: The forced locking mechanism here does not secure the position of the movable pliers jaw over the complete possible range of motion of the movable pliers jaw. Rather than that, the forced locking mechanism does not lock against a motion of the movable pliers jaw caused by the further lever while the forced locking mechanism locks against a motion of the movable pliers jaw caused by the movable hand lever. In other words, the forced locking mechanism does not take effect if the removal and/or insertion position is intended to be initiated by actuation of the further lever, so that an opening motion is possible while the forced locking mechanism is intended to enable the closing motion for crimping or pressing a workpiece while at the same time a closed position once reached is secured.
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 a spring is mentioned, this is to be understood such that there is exactly one spring or there are two springs or more springs. 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.
Within the framework of the present description of the drawings, for construction elements which in different embodiments are the same or similar with respect to their geometries and/or functions, the same reference signs are used. If several construction elements that correspond to each other with respect to their function and/or geometry are present in one embodiment, these sometimes are indicated by the same reference signs, where additionally they are differentiated by a), b), . . . . In this case, the reference signs may be used with or without the additional letter.
As a closed position of a movable hand lever or an additional hand lever, a position is referred to in which the movable hand lever or the additional hand lever is maximally pivoted towards the fixed hand lever. A corresponding pivoting motion is referred to as a closing motion or closing stroke. The other way round, an open position and opening motion refers to that position of the movable hand lever or additional hand lever in which the movable lever or additional hand lever is pivoted (preferably maximally) away from the fixed hand lever or the corresponding motion in order to initiate the open position. With respect to the movable pliers part and the movable pliers jaw, the closed position refers to that position in which the pliers jaws are maximally closed, that is, a workpiece arranged in the dies is completely pressed or crimped. The closing motion refers to the motion towards the closed position. An open position of the movable pliers jaw refers to a position of the pliers jaws that is open when compared to the closed position and the opening motion refers to the motion of the pliers jaws towards the open position. Possible open positions are especially
Starting from the starting position, when the movable hand lever is actuated by the user, the pressing or crimping stroke proper is executed which (possibly after some idle stroke) goes from the starting position to the closed position.
For the embodiment of crimping pliers 1 shown in
The fixed pliers part 2 and the movable pliers part 3 are pivotably connected via a pivot bearing 7.
A movable hand lever 9 is pivotably linked to the fixed pliers part 2 via a pivot bearing 8. The movable hand lever 9 is coupled to the movable pliers part 3 via a drive mechanism 10 in such a way that by means of manual pivoting of the movable hand lever 9 relative to the fixed hand lever 5 the fixed pliers part 3 and therefore the movable pliers jaw 6 can be initiated to pivot relative to the fixed pliers jaw 4.
It is possible for the pliers jaws 4, 6 to directly form dies for pressing or crimping a workpiece. For the embodiment shown, the pliers jaws 4, 6, however, support dies via suitable receptacles, where the receptacles and dyes are realized according to patent document U.S. Pat. No. 6,053,025 A, the disclosure of which is made subject of the present patent application.
For the embodiment shown, the drive mechanism 10 is realized as a toggle lever drive 11. As can be seen especially from
As can especially be seen from
In the following, optional design possibilities of the crimping pliers 1 are described which may be employed alternatively or cumulatively:
The function of the crimping pliers 1 according to the embodiment shown in
From the storage position 55 according to
If the hand forces applied manually to the additional hand lever 49 are removed, due to the effect of the closing spring 36 the additional hand lever 49 is automatically moved in the opening direction, which goes along with the closing motion of the movable pliers part 3. This closing motion occurs until a holding position 58 according to
The user now can apply actuation forces onto the movable hand lever 9. From the holding position according to
Starting from the starting position 59 according to
If the hand forces applied by the user are removed, due to the effect of the closing spring 36 the closed position of the pliers jaws 4, 6 and the open position of the additional hand lever 49 are kept up, in which way the closing spring force produced by the closing spring 36 makes sure that the crimped workpiece 57 is clamped between the pliers jaws 4, 6—which is realized here by clamping between the dies 53, 54—and cannot drop out of the dies 53, 54. The effect of the opening spring 42 leads to a pivoting of the hand lever 9 from the closed position according to
If then the pressed or crimped workpiece 57 is to be removed from the crimping pliers 1, by actuation of the additional hand lever 49 a transfer of the movable pliers part 3 and the movable pliers jaw 6 into the insertion and/or removal position 56 can be initiated (cp.
If in the crimping pliers 1 a forced locking mechanism 32 is present, it creates a locking effect only during the idle stroke and/or the pressing or crimping stroke, so that the other motions described before are not hindered by the forced locking mechanism 32.
It is possible for an interspace formed between the plates of the crimping pliers 1, which here are the fixed pliers part plates 17 and/or movable pliers part plates 18, to be closed or sealed towards the outside by a cover 61, e.g. made of plastic. For the embodiment shown here, the cover 61 in a rough approximation is T-shaped with a bridge 62 formed by a vertical arm. In the region of the bridge 62, the cover 61 is mounted with the movable pliers part 3, which here is achieved by means of the fixing mounting bolts 30, 31. A corresponding cover 63 extends in the region of the outer front faces of the fixed pliers jaw plates 17. For the embodiment shown, the cover 63 comprises outer mounting eyelets 64, the function of which will be explained in the following.
For the embodiment shown in
The electronics construction unit 66 comprises a housing which is formed with two half-shell like housing parts 67, 68, where in one housing part 67, 68 a transparent cover pane 69 to form a viewing window for a display 70 may be arranged. In an interspace arranged between the housing, which here is embodied by a housing part 67, and the mechanical pliers part 65, a circuit board 71 is arranged. The housing parts 67, 68 are latched, locked or pressed onto one another and the mounting eyelets 64 via suitable connecting pins and receptacles.
For an electric power supply of the electronics construction unit 66, the electronics construction unit 66 may comprise a holder 72 with a battery or a rechargeable accumulator 73. For the embodiment shown, the holder 72 is held on the fixed pliers part 2, here in the region of the hand lever part 19—which has already been shown in
Differently from
In
If by means of the movable hand lever 9 the pressing stroke or crimping stroke as such is executed, the support 61 moves the side arm 78 along so that the side arm 78 detaches from the support 82. On the contrary, during the crimping stroke or pressing stroke the side arm 77 is supported on the support 80 while the support 79 moves away from the side arm 77. The spring device 75 therefore during the pressing stroke or crimping stroke produces an opening spring force which when the closed position is reached can be used for an automatic opening motion into the starting position according to
The embodiment of the crimping pliers 1 shown in
For the embodiment shown in
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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18 190 465.7 | Aug 2018 | EP | regional |