The present invention relates to a hand operated crimping tool.
When crimping, a connector i.e. a terminal, splice, contact or a similar device is mechanically secured to at least one cable—e.g to a conductor such as a wire—by deformation so that a solid joint having reliable mechanical and electrical connection is formed. The crimping operation resulting in a crimped joint is performed using crimping dies. Crimping tools may e.g. be hand operated.
In hand operated hand held crimping tools, the crimping tool is usually arranged with two proximally on the crimping tool arranged handles which are movable in relation to each other, where when the user brings the handles towards each other using hand force, usually using one hand only which when placed around both of the handles is squeezed together, the usually distally on the crimping tool arranged crimping dies are brought together in order to crimp at least one workpiece between them.
DE 298 03 336 U 1 shows hand crimping tools with an open head, a closed head, and a head which head may be opened when crimping is not in progress in order to be able to move a workpiece sideways into the head and in order to facilitate the exchange of crimping dies and which head is kept closed during crimping. The crimping tools have a body to which the head is fixed which head is arranged with a fixed crimping die, and in which body a movable crimping die is arranged.
The primary object of the present invention is to provide an improved hand operated crimping tool.
The above mentioned object is achieved for a hand operated crimping tool having a tool head arranged axially slidable along a tool body, and having the movement of at least one tool handle arranged connected to the movement of the tool head by a mechanism.
According to one embodiment, the mechanism arranged to connect the movement of the handles to the movement of the tool head is a toggle mechanism.
According to one embodiment, the mechanism arranged to connect the movement of the handles to the movement of the tool head is a cam mechanism.
According to another embodiment, the tool head is arranged slidably attached to the body using at least one pin arranged to slide in at least one slot extending axially along the tool.
According to a further embodiment, the body comprises two body parts between which the tool head is arranged to slide.
According to further embodiments, the tool head is open, closed or comprises a pivotable head part.
These and other advantageous features will be apparent from the detailed description below.
The invention will now be described in more detail below with reference to the appended drawings which illustrate preferred embodiments of the device according to the invention.
The same reference numerals are being used for similar features in the different drawings.
The main head part 11 may comprise more than one part, e.g. at least one distal part 46 and at least one proximal part 48. The crimping die 44 may be arranged at the distal end 50 of the distal part 46 and the toggles 30, 32 may be pivotably attached to the proximal end 52 of the proximal part 48. The distal end 54 of the proximal part 48 may be attached to the proximal end 56 of the distal part 46. The distal part 46 may be essentially U-shaped and the proximal part 48 may be essentially Y-shaped.
Said exchangeable crimping dies 42, 44 may further preferably be removably fastened at the body 6 and the main head part 11, respectively, by respective fastening elements 58, 60 such as screws.
The embodiment shown in
The embodiment shown in
Thus, according to the embodiment shown in
The embodiment shown in
As can be seen in
The embodiment shown in
The tool head 4 according to this embodiment comprises a main head part 11 and a pivotably thereto at a pivot point 13 attached pivotable latch-like head part 15, where the main head part 11 is arranged to extend along the body 6 and is slidably attached to the body 6 using pins 18, 20 arranged to slide in respective slots 22, 24 extending axially A along the tool 2, where preferably at least two pins 18, 20 are used in order to control the movement of the main head part 11 relative to the body. The slots 22, 24 may be arranged in the body 6 or in the main head part 11, and the pins may be arranged in the main head part 11 or in the body 6, respectively. The handles 8, 10 are pivotably attached to the body 6 at pivot points 26, 28. The handles 8, 10 are further connected to the main head part 11 by respective toggles 30, 32 which toggles 30, 32 are pivotably attached to the main head part 11 and a respective handle 8, 10 at pivot points 34, 36; 38, 40, preferably by using pins 35; 39, 41. Crimping dies 42, 44 are further preferably removably arranged at the body 6 and the tool head 4, in this embodiment at the main head part 11, respectively, where a distal crimping die 44 is arranged at the tool head 4 and a proximal crimping die 42 is arranged at the body 6, between which crimping dies 42, 44 at least one workpiece (not shown in this figure) is arranged to be crimped when the crimping dies 42, 44 are moved towards each other.
The main head part 11 may comprise more than one part, e.g. at least one distal part 46 and at least one proximal part 48. The crimping die 44 may be arranged at the distal end 50 of the distal part 46 and the toggles 30, 32 may be pivotably attached to the proximal end 52 of the proximal part 48. The distal end 54 of the proximal part 48 may be attached to the proximal end 56 of the distal part 46. The pivotable head part 15 may further be pivotably attached at a pivot point 13 to the distal end 54 of the proximal part 48. The distal part 46 may be essentially U-shaped and the proximal part 48 may be essentially Y-shaped.
Said exchangeable crimping dies 42, 44 may further preferably be removably fastened at the body 6 and the main head part 11, respectively, by respective fastening elements 58, 60 such as screws.
In order to achieve that the pivotable head part 15 of the tool head 4 is automatically moved between an open head position and a closed head position depending on the relative position of the tool handles 8, 10 as will be discussed in more detail below, the pivotable head part 15 is further arranged to be slidably guided along a curved path along the body 6 by using at least one pin 62 arranged to slide in a curved slot 64, the curved slot 64 defining the curved path. The curved slot 64 may be arranged in the body 6 or in the pivotable head part 15, and at least one pin 62 may be arranged in the pivotable head part 15 or in the body 6, respectively.
According to this embodiment, the curved slot 64 is arranged in the body 6 and the at least one pin 62 is arranged in the pivotable head part 15, where further the curved slot 64 is arranged at its proximal end 66 to extend in parallel with the above mentioned slots 22, 24 extending axially A along the tool 2, whereas the curved slot 64 is arranged towards its distal end 68 to extend at an angle to and away from the above mentioned slots 22, 24. Thus, when the pin 62 arranged in the pivotable head part 15 moves along the curved slot 64 in parallel to the above mentioned slots 22, 24, the pivotable head part 15 of the tool head 4 is kept in its closed position. When the pin 62 arranged in the pivotable head part 15 moves along the curved slot 64 at an angle to and away from the above mentioned slots 22, 24, the pivotable head part 15 of the tool head 4 leaves its closed position and opens up. When the pin 62 reaches its most distal position along the curved slot 64, the pivotable head part 15 of the tool head 4 has reached its open position.
As can be seen from
When the handles 8, 10 are pressed together, the handles 8, 10 pivot around their respective pivot point 26, 28 arranged on the body 6, whereby the toggles 30, 32 pivot around their respective distal pivot point 38, 40 arranged on the respective handle 8, 10, thereby moving their respective proximal pivot point 34, 36 where they are pivotally attached to the main head part 11 of the tool head 4 proximally along the crimping tool 2, thus moving the distal end of the tool head 4 proximally along the crimping tool 2 towards the body 6. This results in that the distal crimping die 44 arranged at the tool head 4, in this embodiment at the main head part 11, is moved by a toggle mechanism towards the proximal crimping die 42 arranged at the body 6, the crimping dies 42, 44 thus being arranged to be brought towards each other in order to crimp at least one workpiece (not shown in this embodiment) arranged in a crimping aperture 70 arranged between the crimping dies 42, 44. When parting the tool handles 8, 10, the tool head 4 moves in the opposite direction, i.e. from the position shown in
When at least two pins 18, 20 are used in order to control the movement of the main head part 11 relative to the body 6, the above discussed arrangement of the toggles 30, 32 enables arranging the pins 18, 20 far apart this increasing the alignment of the main head part 11 with the tool 2 axis A and decreasing the possible tilt between the tool 2 axis A and the main head part 11.
The embodiment shown in
The curved path 63 is arranged at its proximal end 69 to extend in parallel with the above mentioned slots 22, 24 extending axially A along the tool 2, whereas the curved path 63 is arranged towards its distal end 71 to extend at an angle to and away from the above mentioned slots 22, 24. Thus, when the free end 61 of the pivotable head part 15 moves along the curved path 63 in parallel to the above mentioned slots 22, 24, the pivotable head part 15 of the tool head 4 is kept in its closed position. When the free end 61 of the pivotable head part 15 moves along the curved path 63 at an angle to and away from the above mentioned slots 22, 24, the pivotable head part 15 of the tool head 4 leaves its closed position and opens up. When free end 61 of the pivotable head part 15 reaches its most distal position along the curved path 63, the pivotable head part 15 of the tool head 4 has reached its open position.
The embodiment shown in
The free end 61 of the pivotable head part 15 is thus arranged to be slidably guided along a curved path 63 in relation to the body 6, where the design of the cam surfaces define the curved path 63.
As can be seen in
The embodiment shown in
The body 6 is arranged between the distal end 1 and the proximal end 3 of the crimping tool 2. The tool head 4 is arranged distally 1 on the crimping tool 2, and the two handles 8, 10 are arranged proximally 3 on the crimping tool 2. The tool head 4 comprises a main head part 11 arranged to extend along the body 6. The body 6 preferably comprises two body parts 14, 16 between which the main head part 11 is arranged to slide. For clarity, the parts of the main head part 11 which are obscured by the body part 14 are shown with dashed lines in the figure. The main head part is slidably attached to the body 6 using pins 18, 20 arranged to slide in respective slots 22, 24 extending axially A along the tool 2, where preferably at least two pins 18, 20 are used in order to control the movement of the main head part 11 relative to the body 6. The slots 22, 24 may be arranged in the body 6 or in the main head part 11, and the pins may be arranged in the main head part 11 or in the body 6, respectively. The handles 8, 10 are pivotably attached to the body 6 at pivot points 26, 28.
The main head part 11 is arranged axially A slidable along the body 6. Crimping dies 42, 44 are further preferably removably arranged at the body 6 and the main head part 11, respectively, between which crimping dies 42, 44 at least one workpiece (not shown in this figure) is arranged to be crimped when the crimping dies 42, 44 are moved towards each other. For clarity, the parts of the crimping dies 42, 44 which are obscured e.g. by one body part 14 or the main head part 11 are shown with dashed lines in the figure.
The handles 8, 10 are further connected to the main head part 11 by a mechanism 31 which is a cam mechanism comprising at least one cam 82, 84, in this embodiment two cams 82, 84, which cams 82, 84 are attached to a respective handle 8, 10, and which cams are arranged to engage an at the main head part 11 arranged cam following means 86 such as e.g. a pin arranged on the main head part 11.
When the handles 8, 10 are pressed together, the handles 8, 10 pivot around their respective pivot point 26, 28 arranged on the body 6, whereby the respective cams 82, 84 are moved towards the cam following means 86. When the respective cams 82, 84 engage the cam following means 86, the cam following means 86 arranged on the main head part 11 is moved together with the main head part 11 proximally along the crimping tool 2, thus moving the distal end 50 of the tool head 4 proximally along the crimping tool 2 towards the body 6. This results in that the distal crimping die 44 arranged at the tool head 4, in this embodiment at the main head part 11, is moved by a cam mechanism towards the proximal crimping die 42 arranged at the body 6, the crimping dies 42, 44 thus being arranged to be brought towards each other in order to crimp at least one workpiece (not shown in this embodiment) arranged in a crimping aperture 70 arranged between the crimping dies 42, 44. When the main head part 11 moves proximally along the body 6, the return springs 78, 80 arranged between the main head part 11 and the body 6, e.g. arranged between a pin 20 arranged on the main head part 11 and a respective pin 88, 90 arranged on the body 6, are tensioned thereby increasing a return spring force trying to move the tool handles 8, 10 apart. Thus, when the force pressing the tool handles 8, 10 towards each other is released, the return spring force from the tensioned return springs 78, 80 is arranged to move the tool handles 8, 10 apart thus moving the distal end 50 of the tool head 4 in the opposite direction away from the body 6.
As mentioned above, the main head part 11 is slidably attached to the body 6 using at least one pin arranged to slide in at least one slot, and the possible pivotable head part 15 is further arranged to be slidably guided along a curved path along the body 6 by using at least one pin arranged to slide in a curved slot. As mentioned above, the body 6 preferably comprises two body parts 14, 16 between which the main head part 11 is arranged to slide.
The main head part 11 is preferably slidably attached to both body parts 14, 16 of the body 6, e.g. by using at least one pin attached to both body parts 14, 16 and arranged to slide in at least one slot in the main head part 11, or using at least one pin attached to the main head part 11 and arranged to slide in at least one slot arranged in each of the body parts 14, 16.
The pivotable head part 15 is further preferably arranged to be slidably guided along a curved path along both body parts 14, 16 of the body 6, e.g. by using at least one pin attached to both body parts 14, 16 and arranged to slide in a curved slot in the pivotable head part 15, or by using at least one pin attached to the pivotable head part 15 and arranged to be slidably guided along a curved slot arranged in each of the body parts 14, 16. Another possible embodiment is to arrange the free end 61 of the pivotable head part 15 to be slidably guided along a curved path 63 in relation to the body 6 by arranging a pre-tensioned spring 65 arranged to push the free end 61 of the pivotable head part 15 away from the main head part 11, and arranging a support means 67 in the body 6 along which the pivotable head part 15 is arranged to slide, as mentioned above. A further possible embodiment is to arrange the free end 61 of the pivotable head part 15 to be slidably guided along a curved path 63 in relation to the body 6 by arranging a pre-tensioned spring 65 arranged to push the free end 61 of the pivotable head part 15 against the main head part 11, and arranging a cam surface 72 at the to the body 6 attached end 74 of the pivotable head part 15 is to be slidably guided along a cam surface 76 at to the body 6 attached end of a pivotably to the body 6 arranged handle 8, as mentioned above.
The mechanism 31 connecting the handles and the tool head is preferably a toggle mechanism or a cam mechanism as discussed in the embodiments above, but may also be another mechanism which in a similar way connects the movement of the at least one pivotable handle and the movement of the tool head, such as e.g. a toothed wheel mechanism.
The features of the embodiments discussed above may be combined in further ways than those explicitly described in the embodiments above. The invention thus relates to a hand operated crimping tool 2 comprising a body 6 arranged between a distal end 1 and a proximal end 3 of the crimping tool 2, a tool head 4 arranged distally 1 on the crimping tool 2, and handles 8, 10 arranged proximally 3 on the crimping tool 2, where at least one handle 8, 10 is arranged pivotally to the body 6, where the tool head 4 is arranged axially A slidable along the body 6, where a distal crimping die 44 is arranged at the tool head 4 and a proximal crimping die 42 is arranged at the body between which crimping dies 42, 44 a workpiece 43 is to be crimped, and in that the movement of the at least one pivotally to the body 6 arranged handle 8, 10 is arranged connected to the movement of the tool head 4 by a mechanism 31, whereby the tool head 4 is arranged movable between a distal non-crimping position and a proximal crimping position depending on the relative position of the tool handles 8, 10.
Crimping tools utilizing the invention may as described above be arranged with an open head or a closed head. In a tool having an open head, the head has to be much stronger than in a tool having a closed head in order to withstand the same amount of maximum crimping force, this due to that an open head design is less rigid than a closed head design and will flex more easily during crimping.
A crimping tool with a closed head will thus be lighter than a crimping tool with an open head designed for the same amount of maximum crimping force if the crimping tools are made of the same material, this resulting in less load on the user.
A crimping tool with an open head shows on the other hand the advantage that it is possible to e.g. crimp together the ends of two very long wires and thereafter to remove the crimping tool from the crimped wires without having to pull the crimped wires through the head of a crimping tool having a closed head. Further, if the “non-crimped” ends of the two crimped wires are not free which e.g. is the case when these ends already are fixed to e.g. a respective electrical distribution box, it is impossible to remove the crimped wires after crimping from a tool having a closed head.
Crimping tools utilizing the invention may as described above also be arranged with an pivotable head part thereby making use of the above mentioned advantages of both hand crimping tools having open heads and hand crimping tools having closed heads.
In the above described embodiments, the tool head is arranged slidably attached to the body using at least one pin arranged to slide in at least one slot extending axially along the tool. It is also possible to arrange the tool head slidably attached to the body using other guiding means such as e.g. guiding elements arranged in the body between which the tool head is guided when sliding along the body.
Number | Date | Country | Kind |
---|---|---|---|
1100284-7 | Apr 2011 | SE | national |
Number | Name | Date | Kind |
---|---|---|---|
2722859 | Stoltz | Nov 1955 | A |
2765019 | Evans | Oct 1956 | A |
2772715 | Neijstrom et al. | Dec 1956 | A |
3029670 | Over et al. | Apr 1962 | A |
3534583 | Demler, Sr. | Oct 1970 | A |
3840987 | Netta | Oct 1974 | A |
RE30848 | Bauerkemper | Jan 1982 | E |
4571764 | Chen et al. | Feb 1986 | A |
5152051 | Folk et al. | Oct 1992 | A |
6026671 | Battenfeld | Feb 2000 | A |
6085422 | Hirabayashi | Jul 2000 | A |
6324884 | Barjesteh et al. | Dec 2001 | B1 |
20110197648 | Houser et al. | Aug 2011 | A1 |
Number | Date | Country |
---|---|---|
29 03 252 | Sep 1980 | DE |
298 03 336 | Jul 1998 | DE |
0 058 375 | Aug 1982 | EP |
2 362 501 | Aug 2011 | EP |
585 313 | Feb 1947 | GB |
2 185 706 | Jul 1987 | GB |
Number | Date | Country | |
---|---|---|---|
20120260714 A1 | Oct 2012 | US |