JP7070948B2 - Folding pliers - Google Patents

Description

The present invention comprises a first clamp area and a second clamp area, the clamp area is connected so that the clamp area can rotate about a first rotation axis, a first handle element and a swivel method. The present invention relates to a folding plier for bending a sheet metal, which also comprises a second handle element connected to a first handle element in which the first handle element is connected to a first clamp area.

From the prior art, various tools for folding or bending sheet metal are known. However, tools from the prior art are cumbersome and heavy, which makes them unsuitable for, for example, folding or bending sheet metal on the façade in a simple manner.

This is addressed by the present invention. An object of the present invention is to define the first type of tool that is light, easy to handle, and can be used portablely.

According to the present invention, the object is to connect the second handle element to the second clamp region so that the second handle element can rotate about the second axis of rotation, and as a result, the first. Further turning motion of the first handle element with respect to the second handle element to bend the clamped sheet metal as the handle element of is swiveled from the transmission position with respect to the second handle element is the second handle element. On the other hand, after inducing a rotational movement of the first clamp region together with the second clamp region around the second rotation axis, the sheet metal arranged between the clamp regions can be clamped in the clamp region. It is realized with the first mentioned type of foldable pliers, where the first clamp area moves relative to the second clamp area.

Within the scope of the invention, when folding pliers are embodied, a compact and lightweight device can be obtained to bend the sheet metal in a simple manner, and when the handle elements move relative to each other, the sheet metal. Is first clamped between the clamp areas, and when the handle elements move further with respect to each other, the sheet metal follows due to the movement of the clamp area with the sheet metal with respect to the second handle element. It can be seen that it bends around the second rotation axis. This type of foldable pliers can be embodied to be lightweight and compact so that they can also be used portablely, for example for façade work. Usually, the sheet metal is clamped as a result of the clamp regions moving relative to each other around the first axis of rotation to ensure convenient operation, and the second is the continuous motion of the handle elements. The sheet metal bends as a result of the clamp area moving with the clamped section of the sheet metal about the axis of rotation.

To re-release the completed folded sheet metal from the folding pliers, the first handle element can easily move in the opposite direction of the movement to clamp and fold the sheet metal, resulting in the folded sheet metal. Can be released from the folding pliers.

It has been shown that it is beneficial for the first and second rotation axes to be substantially parallel. The distance between the axes of rotation is typically less than 20 cm, especially less than 10 cm, corresponding to the desired folding length or the length of the section of sheet metal to be bent. The clamping region is such that the sheet metal is preferably sufficiently clampable in the region between the first rotating shaft and the second rotating shaft in order to uniformly load the sheet metal and obtain a clean edge. As such, it typically extends from the first axis of rotation to the second axis of rotation.

It is useful if the sheet metal can be essentially clamped in the clamping region over the entire area between the first rotating shaft and the second rotating shaft. Therefore, the clamp can be continuous in the region between the axes of rotation. As a result, clean bending of the clamped sheet metal or sheet metal secured in place between the clamped areas by a pressure fit is achieved with smooth bending edges.

The design is structurally simple and at the same time robust, but the rotatable connection between the clamp areas and / or between the second clamp area and the second handle element is formed by hinges, especially connecting hinges. It will be realized when Therefore, uniform force transfer over the length of the fold is also guaranteed.

The first handle element is connected to the first clamp area via a disc-shaped intermediate element, and the first handle element is preferably disc, especially via at least two connection positions located at the ends. It is shown that it is effective to connect to the intermediate element of the shape. This ensures a uniform application of force over the length of the fold, which can result in a particularly smooth and high quality bent edge.

Similarly, the second handle element is connected to the second clamp area via a disc-shaped intermediate element, and the second handle element is preferably at least two connection positions that are specifically located at the ends. When connected to a disc-shaped intermediate element via, it is shown to be advantageous.

A method in which the first clamp area is fixed to allow particularly compact transport, preferably the first handle at an angle of less than 100 °, particularly less than 50 °, preferably 15 ° to 35 °. It is advantageous when connected to an element. The handle elements may then be arranged such that the handle elements are weighted against each other at the transfer position and the sheet metal can be clamped and folded directly from that transfer position. Typically, the first clamp area and the first handle element are connected in the area of the first rotation axis.

In a transmission position where the first clamp area is fixed to the first handle element and the handle elements are weighted against each other, the clamp areas are 10 ° to 90 ° to each other, especially 15 ° to 35 °, respectively. It is beneficial if it is preferably arranged at an opening angle of approximately 20 ° and is open to accommodate the sheet metal. On the other hand, space-saving transportation is therefore possible. Folding pliers, on the other hand, can then be used to fold the sheet metal directly from the transmission position.

A sheet metal clamped between the clamping regions to ensure that rotation around the second axis of rotation does not occur until the first clamping region is snugly connected to the second clamping region. The torque required to move the second handle element about the second rotation axis with respect to the second clamp region is preferably applied to the second clamp region at the transmission position. More than the torque required to move the first handle element around the first axis of rotation, so that the movement of the first handle element out of the transmission position is relative to the second clamp area. It is provided to start the movement of the first handle element first. Structurally, this can be implemented in a wide variety of ways, especially via joints that move with different degrees of ease, and the joints form a axis of rotation.

At least one spring is provided to the joint forming the second axis of rotation, in particular the connecting hinge forming the second axis of rotation, to define the torque required to initiate the movement of the joint. The spring allows the frictional force acting between the parts of the joint that can move relative to each other to be applied to the joint, especially if the spring force can be adjusted by a set screw, of a rotating shaft that moves with different degrees of ease. A robust design can be easily achieved. For example, the movement of the hinge or the movement of the second clamp region about the second rotation axis with respect to the second handle element is the friction torque generated by the spring or the second rotation that can move with respect to each other. A spring load pressure element acting on a portion of the second rotating shaft that moves relative to each other can be provided, as is possible only when overcoming the frictional forces acting on the portion of the shaft. Of course, it is also possible to provide multiple springs to apply a uniform frictional force over the length of the hinge. Therefore, the spring acts directly on, for example, the first portion of the joint forming the second axis of rotation, the first portion being movable with respect to the second portion of the joint, and the spring force. It is necessary to press the first part against the second part and, as a result, overcome the frictional force and coefficient of friction defined by the spring force in order to move the first part relative to the second part. be.

Additional features, advantages, and effects of the invention arise from the exemplary embodiments shown below. The drawings referenced thereby are shown below.

It is a foldable plier according to the present invention. It is a foldable plier according to the present invention. It is a foldable plier according to the present invention. It is a foldable plier according to the present invention together with a sheet metal. It is a detailed view of the foldable pliers according to this invention from FIG. It is a foldable plier according to the present invention together with a sheet metal. A further set of foldable pliers according to the invention along with sheet metal.

1 to 3 show folding pliers 1 according to the present invention in different operating states. As shown in the figure, the folding plier 1 includes a first handle element 6 and a second handle element 7, and the first handle element 6 is connected to the first clamp region 2 in a fixed manner. .. The first handle element 6 and the first clamp area 2 are connected to the second clamp area 3 so that they can rotate about the first axis of rotation 4, as shown, and as a result, the seat. A section of metal 8 or similar can be clamped between the clamping areas 2 and 3.

The second clamp region 3 is rotatably connected to the second handle element 7 via a second rotation shaft 5 parallel to the first rotation shaft 4, resulting in a clamped sheet metal. As a result of the rotational movement around the second rotating shaft 5 of the clamp regions 2 and 3 connected via, the sheet metal 8 clamped between the clamp regions 2 and 3 can be bent or folded. ..

The movement of the first clamp region 2 centered on the first rotation shaft 4 with respect to the second clamp region 3, and the bending movement of the two clamp regions 2 and 3 centered on the second rotation shaft 5. Both can be initiated by the movement of the first handle element 6 with respect to the second handle element 7, so that the clamping and bending of the sheet metal 8 can be initiated by the first handle element with respect to the second handle element 7. It can be done in 6 continuous movements.

In FIG. 1, the foldable pliers 1 are shown at transmission positions where the foldable pliers 1 have minimal space requirements and the handle elements 6 and 7 are essentially weighted to each other. Clamping and folding of the sheet metal 8 is possible directly from this transmission position. To do so, a sheet metal 8 to be folded is placed between the clamp areas 2 and 3 of the foldable pliers 1, which area is opened at an opening angle β of approximately 10 ° to 35 ° at this transmission position. There is.

The first of the foldable pliers 1 is to clamp the sheet metal 8 arranged between the clamp areas 2 and 3 or to fix the sheet metal 8 in the place between the clamp areas 2 and 3 in the pressure fit. The handle element 6 of 1 moves clockwise from the position shown in FIG. 1 in the moving direction 13 with respect to the second handle element 7 of the foldable pliers 1. Since the first clamp area 2 is connected to the first handle element 6 in a fixed manner, the rotational movement of the first handle element 6 is also the rotational movement of the first clamp area 2 with respect to the second clamp area 3. When the first handle element 6 moves clockwise with respect to the second handle element 7, the sheet metal 8 arranged between the clamp areas 2 and 3 causes a rotational motion, whereby the sheet metal 8 arranged between the clamp areas 2 and 3 causes the clamp area 2, Clamped by 3. The position of this type in which the clamp areas 2 and 3 are closed, i.e., the opening angle β between the clamp areas 2 and 3 is 0 °, is shown in FIG.

When the first handle element 6 with respect to the second handle element 7 further moves in the moving direction 13 from the position shown in FIG. 2, especially since the clamp areas 2 and 3 are already closed, the second clamp area 3 Further movement of the first handle element 6 about the first rotation shaft 4 with respect to the above is impossible thereafter. Further movement of the first handle element 6 relative to the second handle element 7 clockwise in the direction of movement 13 from the clamp position shown in FIG. 2 is therefore a seat clockwise about the second rotation axis 5. Together with the metal 8, it causes rotational movement of the clamp regions 2, 3 and the first handle element 6. In this movement, the sheet metal 8 clamped between the clamp areas 2 and 3 is bent. Bending positions where the clamp areas 2 and 3 are closed and correspondingly swivel with respect to the second handle element 7 are shown in FIG. Here, the first clamp region 2 is connected to the intermediate element 10 at an angle α of approximately 50 °, and the first clamp region 2 is fixed to the first handle element 6 via the intermediate element 10. It can also be understood that it is connected.

In order to release the completed folded or bent sheet metal 8 from the foldable pliers 1, the first handle element 6 can easily clamp and bend in the opposite direction of the moving direction 13, ie counterclockwise in this case. As a result, the clamp areas 2 and 3 are opened and the sheet metal 8 is released.

4 to 6 show the foldable pliers 1 according to the invention at the operating position as shown in FIG. 3, but are shown together with the sheet metal 8 clamped between the clamp areas 2 and 3. As shown in the figure, the sheet metal 8 is bent in the region of the second rotation shaft 5. This occurs as a result of the movement sequence described above.

As shown, the handle elements 6 and 7 are connected to the clamp areas 2 and 3 via a disc-shaped intermediate element 10 to ensure uniform force transfer and application to the sheet metal 8 and the handle elements 6 and 7. Is arranged in the end region of the disk-shaped intermediate element 10 or is connected to the handle elements 6 and 7 at the connection position 11 arranged at the end.

In particular, in FIG. 6, it is understood that the first rotating shaft 4 and the second rotating shaft 5 are structurally formed by the connecting hinge 9 in this case in order to transmit the force in a particularly uniform manner. Can be done.

Of course, the lengths of the plate-shaped intermediate element 10 and the rotating shafts 4 and 5 are selected according to the sheet metal 8 to be folded or bent and can be individually adapted if necessary. Similarly, the length of the handle elements 6 and 7 and the distance of the handle elements 6 and 7 from the axes of rotation 4 and 5 can be adapted for specific applications, resulting in a simple folding plier 1. Actuation and easy folding of the sheet metal 8 are possible via the corresponding lever lengths, respectively.

FIG. 7 shows a further exemplary embodiment of the foldable pliers 1 according to the present invention, together with the sheet metal 8. The foldable pliers 1 are basically embodied in the same manner as the foldable pliers 1 shown in FIG. 6, but further include a spring in the region of the second rotating shaft 5, which spring is connected by a set screw 12. To. The frictional force acting between the parts of the connecting hinge 9 forming the second rotating shaft 5 that can move relative to each other is therefore generated via the spring, resulting in the second clamping region 3. The friction torque generated by these springs needs to be overcome before they can move with respect to the second handle element 7 about the second rotation shaft 5. Such a spring is not provided for the first rotation shaft 4 and therefore rotates the second clamp region 3 with respect to the second handle element 7 about the second rotation shaft 5. The torque of is larger than the torque for rotating the first handle element 6 about the first rotation shaft 4 with respect to the second clamp region 3. Therefore, when the first handle element 6 makes a turning motion in the moving direction 13 from the transmission position shown in FIG. 1, the first rotation shaft 4 is centered on the second clamp region 3. The rotational movement of the first handle element 6 occurs first together with the clamp region 2, and the rotational movement of the first clamp region 2 together with the second clamp region 3 around the second rotation shaft 5 is the first. It is guaranteed that the clamp area 2 of the Will be done. A series of movements while the foldable pliers 1 are open is thereby similarly defined. This guarantees the ease of use of the tool. The amount of friction torque to be overcome can thereby be adjusted via the set screw 12 which can set the pretension of the spring.

The foldable pliers 1 according to the invention are space-saving, lightweight and easy to handle, so they can also be easily used in a portable manner, for example, to bend the sheet metal 8 on façade and the like. can. In addition, the foldable pliers 1 according to the present invention are firmly embodied, and as a result, they are also suitable for rough usage conditions, especially construction sites.
[Item 1]
A foldable plier for bending sheet metal,
The foldable pliers include a first clamp area and a second clamp area, and the clamp areas are connected so that the clamp area can rotate about a first rotation axis. Further, a first handle element and a second handle element connected to the first handle element in a swivel manner are provided, and the first handle element is connected to the first clamp area. The second handle element is connected to the second clamp region so that the second handle element can rotate about the second rotation axis, and as a result, the first handle element is moved from the transmission position. Further turning motion of the first handle element with respect to the second handle element with respect to the second handle element in order to bend the clamped sheet metal when swiveled with respect to the second handle element. After causing the rotational movement of the first clamp region together with the second clamp region around the second rotation axis, the sheet metal arranged between the clamp regions can be clamped in the clamp region. As such, the first clamp region is characterized by moving relative to the second clamp region.
Folding pliers.
[Item 2]
The foldable plier according to item 1, characterized in that the first rotation axis and the second rotation axis are substantially parallel to each other.
[Item 3]
The foldable pliers according to item 1 or 2, characterized in that the sheet metal can be basically clamped in the clamping region over the entire region between the first rotating shaft and the second rotating shaft. ..
[Item 4]
Item 1 characterized in that a rotatable connection between the clamp areas and / or between the second clamp area and the second handle element is formed by a hinge, in particular a connecting hinge. The foldable pliers according to any one of 3 to 3.
[Item 5]
The first handle element is connected to the first clamp region via a disc-shaped intermediate element, and the first handle element preferably has at least two connection positions that are specifically located at the ends. The foldable plier according to any one of items 1 to 4, characterized by being connected to the disk-shaped intermediate element via the above.
[Item 6]
The second handle element is connected to the second clamp area via a disc-shaped intermediate element, and the second handle element is preferably via at least two connection positions that are specifically located at the ends. The foldable pliers according to any one of items 1 to 5, characterized by being connected to the disk-shaped intermediate element.
[Item 7]
At transmission positions where the first clamp regions are fixed to the first handle elements and the handle elements are weighted against each other, the clamp regions are 10 ° to 90 ° to each other, particularly 15 °. The foldable plier according to any one of items 1 to 6, which is arranged at an opening angle of 35 ° to, preferably approximately 20 °, and is characterized by being open to accommodate the sheet metal.
[Item 8]
At the transmission position, the torque required to move the second handle element with respect to the second clamp region about the second rotation axis is the torque required to move the second handle element with respect to the second clamp region. The torque required to move the first handle element around the first rotation axis is larger than the torque required, and as a result, the movement of the first handle element from the transmission position to the outside is the second. The foldable pliers according to any one of items 1 to 7, characterized by first initiating the movement of the first handle element with respect to the clamp area.
[Item 9]
At least one spring is provided to the joint forming the second axis of rotation, in particular the connecting hinge forming the second axis of rotation, defining the torque required to initiate the movement of the joint. Therefore, with this spring, the frictional force acting between the parts of the joint that can move with respect to each other can be applied to the joint, and in particular, the spring force can be adjusted by the set screw, which is characterized in item 8. Foldable pliers as described.

Claims (9)

A portable foldable plier for bending sheet metal,
The foldable pliers include a first clamp area and a second clamp area, and the first clamp area and the second clamp area can rotate about a first rotation axis. The clamp area 1 and the second clamp area are connected, and the foldable pliers also have a first handle element and a second handle element that is swivelly connected to the first handle element. The second handle element is such that the first handle element is connected to the first clamp region and the second handle element can rotate about a second rotation axis. Connected to the clamped area of the Further turning motion of the first handle element with respect to the second handle element in the first clamp with respect to the second clamp region about the second rotation axis with respect to the second handle element. After inducing a rotational movement of the region, the sheet metal disposed between the first clamp region and the second clamp region can be clamped in the first clamp region and the second clamp region. , The first clamp area moves relative to the second clamp area,
Folding pliers. The foldable plier according to claim 1, wherein the first rotation axis and the second rotation axis are substantially parallel to each other. 1 or claim 1, wherein the sheet metal can be basically clamped in the first clamping region and the second clamping region over the entire region between the first rotating shaft and the second rotating shaft. Foldable pliers according to 2. A rotatable connection between the first clamp area and the second clamp area and / or between the second clamp area and the second handle element is made by a hinge, in particular a connecting hinge. The foldable plier according to any one of claims 1 to 3, which is formed. The first handle element is connected to the first clamp region via a disc-shaped intermediate element, and the first handle element preferably has at least two connection positions that are specifically located at the ends. The foldable plier according to any one of claims 1 to 4, which is connected to the disk-shaped intermediate element via the foldable pliers. The second handle element is connected to the second clamp region via a disc-shaped intermediate element, and the second handle element preferably has at least two connection positions that are specifically located at the ends. The foldable plier according to any one of claims 1 to 5, which is connected to the disk-shaped intermediate element via the foldable pliers. The first clamp is connected to the first handle element in a fixed manner, and the first clamp element and the second handle element are weighted to each other at a transmission position. 1. The foldable pliers according to any one of 6 to 6. At the transmission position, the torque required to move the second handle element with respect to the second clamp region about the second rotation axis is the torque required to move the second handle element with respect to the second clamp region. The torque required to move the first handle element around the first rotation axis is larger than the torque required, and as a result, the movement of the first handle element from the transmission position to the outside is the second. The foldable pliers according to any one of claims 1 to 7, wherein the movement of the first handle element with respect to the clamp area is first initiated. At least one spring is provided to the joint forming the second axis of rotation, in particular the connecting hinge forming the second axis of rotation, defining the torque required to initiate the movement of the joint. The folding according to claim 8, wherein the spring can apply a frictional force acting between the portions of the joint that can move relative to each other to the joint, and in particular, the spring force can be adjusted by a set screw. Ceremony pliers.

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