RU2756054C1 - Portable bending pliers - Google Patents

Abstract

FIELD: hand tools.SUBSTANCE: invention relates to portable bending pliers (1) for bending sheet metal (8), containing a first clamping surface (2) and a second clamping surface (3), made connected, configured to rotate around a first axis (4) of rotation. The pliers comprise a first handle part (6) and a second handle part (7), hingedly connected with said first handle part (6). The first handle part (6) is therein connected with said first clamping surface (2). The second handle part (7) is connected with the second clamping surface (3) so that the second handle part (7) can rotate around the second axis (5) of rotation, wherein when the first handle part (6) rotates relative to the second handle part (7) from the transport position, the first clamping surface (2) moves relative to the second clamping surface (3) so that the part of sheet metal (8) located between said clamping surfaces (2, 3) can be clamped using said clamping surfaces (2, 3). As a result of further rotation of the first handle part (6) relative to the second handle part (7), the first clamping surface (2) then moves rotationally together with the second clamping surface (3) around the second axis (5) of rotation relative to the second handle part (7) in order to bend the clamped sheet metal (8).EFFECT: strength of the pliers and simultaneously simplicity of operation thereof are achieved.9 cl, 7 dwg

Description

The technical field to which the invention relates

The invention relates to a portable bending pliers designed to perform bending operations with sheet metal. Said bending tongs comprise a first clamping surface and a second clamping surface, and said clamping surfaces are made connected so that they can be rotated around a first axis of rotation, and said tongs comprise a first part of the handle and a second part of the handle pivotally connected to said first part of the handle, and said the first part of the handle of the tongs is made connected to the specified first clamping surface.

State of the art

Various tools are known from the prior art for folding or bending sheet metal. However, similar tools known from the prior art are cumbersome and heavy and, for these reasons, these known tools are not suitable, for example, for performing folding or bending operations with sheet metal on the front side of objects, since they do not provide ease of working with them. ...

Disclosure of invention

The present invention is aimed at eliminating the above disadvantages. The object of the present invention is to provide a tool of the aforementioned type, which is lighter and easier to handle, as well as being compact and portable.

In accordance with the present invention, this object is achieved by a portable bending pliers for bending sheet metal comprising a first clamping surface and a second clamping surface, said clamping surfaces being rotatably connected about a first axis of rotation, as well as a first part of the handle and a second part a handle pivotally connected to said first part of the handle, wherein the first part of the handle is connected to the first clamping surface, and the second part of the handle is connected to the second clamping surface for rotation around the second axis of rotation, and when the first part of the handle is rotated relative to the second part of the handle in the direction of movement (13) from the transport position, the first clamping surface moves relative to the second clamping surface so as to clamp the part of the sheet metal located between the said clamping surfaces by means of the said clamping surfaces, the first part of the handle is made with the possibility of subsequent rotational movement relative to the second part of the handle in the direction of movement (13) with the implementation of the rotational movement of the first clamping surface together with the second clamping surface around the second axis of rotation relative to the second part of the handle to perform bending of the specified clamped sheet metal.

Within the framework of the present invention, it has been found that the creation of a compact and less heavy device for easily performing bending of sheet metal is possible provided that the bending tongs are designed appropriately and if, when the parts of the handle are moved relative to each other, a part of the sheet metal is first clamped between the clamping surfaces of the tongs and in the process of further relative movement of the parts of the handle, the subsequent bending of the specified sheet metal around the second axis of rotation occurs due to the joint movement of the specified clamping surfaces and the sheet metal clamped between them relative to the second part of the handle of the tongs. Bending pliers of this type can be made with low weight and compact dimensions, which can make them portable in case, for example, it is necessary to perform facade work. Under normal conditions, the clamping of the sheet metal is provided as a result of the movement of the clamping surfaces relative to each other around the first axis of rotation, and the bending of the specified sheet metal occurs as a result of the movement of the specified clamping surfaces together with the part of the sheet metal clamped between them around the second axis of rotation due to the continuous movement of the parts pliers handles in order to ensure the convenience and simplicity of the bending operation.

To release the finished folded sheet metal part from the bending pliers, said first part of the pliers handle is again easily moved in the direction opposite to the direction of movement used for clamping and bending the sheet material, thus allowing the folded sheet metal to be released from the bending pliers.

The proven advantage of this design of the tongs is the fact that the first axis of rotation and the second axis of rotation are approximately parallel. In this case, the distance between these axes of rotation is usually less than 20 cm, in particular less than 10 cm, and corresponds to the length of a given bend or the length of the bent part of the sheet metal. Typically, said clamping surfaces of the tongs extend from the first axis of rotation in the direction of the second axis of rotation, so that a portion of the sheet metal can be fully clamped, preferably in the area between the first axis of rotation and the second axis of rotation, thereby ensuring uniform distribution of the force load and resulting in this even fold edge.

Another advantage is that the clamping of said sheet metal by means of said clamping surfaces can be performed over the entire area between the first axis of rotation and the second axis of rotation. Thus, it becomes possible to create a continuous clamping between the specified axes of rotation. As a result, it becomes possible to achieve an even bending of the clamped sheet metal or sheet metal fixed in a fixed position between the clamping surfaces by an interference fit, as well as to ensure the flatness of the bent edges of the metal.

Simplicity and, at the same time, the strength of the structure is ensured provided that the connection with the possibility of rotation between the specified clamping surfaces and / or between the second clamping surface and the second part of the handle is realized using a hinge in this design, in particular a piano-type hinge. This also ensures that the force is transmitted uniformly along the entire length of the fold.

Also, an advantageous design feature is the fact that said first part of the pliers handle is made connected to said first clamping surface by means of an intermediate element of a flat shape, and said first part of the handle is made preferably connected to said intermediate element of a flat shape by means of at least two connecting provisions that are fulfilled in particular at the end. This ensures a uniform application of force over the entire length of the fold, with an especially smooth and high-quality fold edge.

Similarly, it is also a preferred design solution when the second part of the handle is made connected to the second clamping surface by means of an intermediate element of a flat shape, and said second part of the handle is preferably made connected to said intermediate element of a flat shape by means of at least two connecting positions, which are made in particular at the end.

In order to achieve particular compactness during transport, in a preferred embodiment of the invention, said first clamping surface is rigidly connected to said first handle part, preferably at an angle of less than 100 °, in particular less than 50 °, preferably 15 ° to 35 °. In this case, said parts of the handle can be made with the possibility of snug fit to each other in the transport position, which retains the direct possibility of clamping and bending a part of the sheet metal. Typically, the first gripping surface and the first handle portion are connected in the region of the first pivot axis.

In a preferred embodiment of the invention, the first clamping surface is rigidly connected to the first part of the handle, and in the transport position, in which the said parts of the handle fit snugly against each other, the said clamping surfaces are made with an opening angle of 10 ° to 90 °, in particular 15 ° to 35 °, preferably about 20 °, relative to each other and openable to receive a portion of the sheeting. On the one hand, such a constructive solution thus provides an opportunity to save working space during transportation. On the other hand, it becomes possible to use said bending tongs for folding or bending sheet metal directly from the transport position.

In order to prevent rotation about the second axis of rotation until the connection of the first clamping surface with the second clamping surface is obtained by means of an interference fit, possibly by means of a part of the sheet metal clamped between said clamping zones, in a preferred embodiment of the invention, a torque is provided in the transport position, required to move the second part of the handle around the second axis of rotation relative to the second clamping surface, exceeding in its magnitude the torque required to move the first part of the handle around the first axis of rotation relative to the second clamping surface, and the movement of the first part of the handle from the specified transport position first causes the movement of the first parts of the handle relative to the second clamping surface. From the point of view of the design of the tool, this can be realized by a variety of methods, in particular through the use of hinge links, characterized by different degrees of freedom and forming the indicated axes of rotation.

The strength of the structure of the axes of rotation, made with the possibility of movement with different degrees of freedom, can be achieved in a simple manner in the case of the introduction of at least one spring into the composition of the articulated connection, which forms the second axis of rotation, in particular, into the composition of the piano loop, which forms the second axis of rotation. In the presence of such a spring, the friction force acting between the parts of the specified hinge link, which are made with the possibility of movement relative to each other, can be applied to the specified hinge link with the ability to create the torque necessary to initiate the movement of the specified hinge link, and the elastic force of the specified spring can be adjusted in particular by means of a fixing screw. For example, the structure may include spring-loaded pressing elements acting on parts of the second axis of rotation that move relative to each other and, thus, the movement of said loop or movement of the second clamping surface around the second axis of rotation relative to the second part of the handle is possible only in the case of overcoming the moment of frictional forces created by the specified spring, or the frictional force acting on the specified parts of the second axis of rotation, which can move relative to each other. Of course, it is possible to include more than one such spring in the structure in order to apply a uniform friction force along the entire length of the above loop. Thus, this spring acts, for example, directly on the first part of the said hinge link, which forms the second axis of rotation, that is, on that first part of the hinge link, which is movable relative to the second part of the said hinge link, and this spring due to the created elastic force also presses the specified first part of the hinge link to the second part of the hinge link. Moreover, to move the first part of the hinge link relative to the second part of the hinge link, it is necessary to overcome the friction force set by the specified elastic force of the given spring and the coefficient of friction.

Brief Description of Drawings

Additional features, advantages and technical results of the present invention will become apparent from the following illustrated description of exemplary embodiments of the present invention. In the figures of the accompanying drawings, provided with reference signs that appear in the text of the present description of the invention, the following is shown:

FIG. 1-3 show portable bending tongs according to the present invention, depicting their various operating states;

FIG. 4 shows a portable bending pliers according to the present invention, together with a piece of sheet metal;

FIG. 5 is an enlarged view of the portable bending pliers of FIG. 4, in accordance with the present invention;

FIG. 6 shows a portable bending pliers in accordance with the present invention, together with a piece of sheet metal;

FIG. 7 shows an additional set of portable bending pliers in accordance with the present invention, together with a piece of sheet metal.

Implementation of the invention

FIG. 1-3 show portable bending tongs according to the present invention, highlighting their various operating states. As can be seen in these figures, said portable bending pliers 1 comprise a first handle portion 6 and a second handle portion 7, the first handle portion 6 being rigidly connected to the first clamping surface 2. As shown in the figures, the first handle portion 6 and the first clamping surface 2 are pivotably connected to the first clamping surface 3 about the first axis of rotation 4, so that a portion of the sheet metal portion 8 or the like can be clamped between with specified clamping surfaces 2, 3.

The second clamping surface 3 is rotatably connected to the second part 7 of the handle by means of a second axis of rotation 5, which is parallel to the first axis of rotation 4 in such a way that the part 8 of the sheet metal clamped between said clamping surfaces 2, 3 can be bent or folded as a result of the rotational movement of said clamping surfaces 2, 3, which are connected by a clamped part of the sheet metal, around said second axis of rotation 5.

The rotational movement of the first clamping surface 2 about the first axis of rotation 4 relative to the second clamping surface 3, as well as the bending movement of the two clamping surfaces 2, 3 about the second axis of rotation 5 can be caused by the movement of the first part 6 of the handle relative to the second part 7 of the handle in such a way that clamping and bending of the sheet metal 8 can occur due to the continuous movement of the first part 6 of the handle relative to the second part 7 of the handle.

FIG. 1, the portable bending pliers 1 are shown in a transport position, in which these portable bending pliers 1 require a minimum volume in the surrounding space, and the said handle parts 6, 7 are generally tightly adjacent to each other. Clamping and bending of the sheet metal part 8 can be performed directly from the transport position. To carry out these operations, the part 8 of the sheet metal intended for bending is placed between the clamping surfaces 2, 3 of the bending pliers 1, the said clamping surfaces being opened at an opening angle β of approximately 10 ° to 35 ° in the transport position.

To clamp the part 8 of the sheet metal located between the specified clamping surfaces 2, 3, or to fix the specified sheet metal 8 in a certain position between the specified clamping surfaces 2, 3 by means of an interference fit, the first part 6 of the handle of said portable bending pliers 1 is moved relative to the second part 7 of said portable bending pliers 1 in the clockwise direction from the position shown in FIG. 1 in the direction of travel 13. Since the first clamping surface 2 is rigidly connected to the first handle portion 6, the rotational movement of the first handle portion 6 also causes the first clamping surface 2 to rotate relative to said second clamping surface 3, resulting in the sheet metal portion 8, located between said clamping surfaces 2, 3 is clamped by said clamping surfaces 2, 3, while the first part 6 of the handle moves clockwise relative to the second part 7 of the handle. This character of the position in which said clamping surfaces 2, 3 are closed, that is, in which the opening angle P between said clamping surfaces 2, 3 is 0 °, is shown in FIG. 2.

From the position shown in FIG. 2, in the course of further movement of the first part 6 of the handle relative to the second part 7 of the handle in the direction of movement 13, any further movement of the first part 6 of the handle about the first axis of rotation 4 relative to the second clamping surface 3 is no longer possible, in particular because said the clamping surfaces 2, 3 are already closed. Thus, further movement of the first handle portion 6 relative to the second handle portion 7 in a clockwise direction in the direction of movement 13 from the clamping position shown in FIG. 2, causes a rotational movement of said clamping surfaces 2, 3 together with said sheet metal 8, and a rotational movement of the first part 6 of the handle clockwise around the second axis of rotation 5. With this movement, said sheet metal portion 8, clamped between said clamping surfaces 2, 3, bends. The bending position in which said clamping surfaces 2, 3 are closed and, respectively, pivoted relative to the second handle portion 7 is shown in FIG. 3. It can also be seen here that the first clamping surface 2 is connected to the first intermediate element 10 at an angle α of approximately 50 °, by means of which, i.e. the intermediate element 10, said first clamping surface 2 is rigidly connected to the first part 6 of the handle ...

To release the finished folded or folded sheet metal part 8 from the portable bending pliers 1, the first handle part 6 is simply moved in a direction opposite to the direction of movement 13 intended for clamping and bending, that is, in this case, counterclockwise, while said clamping surfaces 2, 3 are opened, thus releasing said sheet metal 8.

FIG. 4-6 show the portable bending pliers 1 according to the present invention in the working position shown in FIG. 3, but at the same time together with the part 8 of the sheet metal, clamped between the zones 2, 3 of the clamp. As can be seen, the sheet metal 8 is bent in the region of the second pivot axis 5. This happened as a result of the implementation of the above-described sequence of movements.

As shown in these figures of the drawings, parts 6, 7 of the handle are connected to the clamping surfaces 2, 3 through intermediate elements 10 of a flat shape, and said parts 6, 7 of the handle are made on the end portions of said intermediate elements 10 of a flat shape or connected to parts 6, 7 handles in connecting positions 11, made at the end, to ensure uniform transmission and application of force to sheet metal 8.

In particular, as can be seen in FIG. 6, the first axis of rotation 4 and the second axis of rotation 5 in this case are structurally formed by piano loops 9 for transmitting forces in a particularly uniform manner.

Of course, the length of the flat intermediate elements 10 and the length of the pivots 4, 5 are selected in accordance with the part 8 of the sheet metal to be folded or folded, and this parameter can be individually adjusted if necessary. Similarly, the length of the handle parts 6, 7 and their distance from the axes 4, 5 of rotation can be adjusted depending on the specific use of the tool, and the ease of operation of the portable bending pliers 1 and the ease of bending sheet metal 8 are respectively determined by the respective lengths of the lever links.

FIG. 7 shows a further exemplary embodiment of the portable bending pliers 1 according to the present invention, depicting a portion 8 of sheet metal. In this additional embodiment of the invention, said portable bending pliers 1 are substantially the same as the portable bending pliers 1 shown in FIG. 6, but at the same time they additionally contain springs installed in the zone of the second axis of rotation 5, which are connected by means of fixing screws 12. Due to the presence of these springs, a friction force is formed acting between the parts of the piano loop 9, forming the second axis of rotation 5, made with the ability to move relative to each other, and the moment of friction created by these springs must be overcome before the second clamping surface 3 can move relative to the second part 7 of the handle around the second axis of rotation 5. At the same time, the presence of such springs is not provided on the first axis of rotation 4 and, for this reason, the torque turning the second clamping surface 3 relative to the second part 7 of the handle about the second axis of rotation 5 exceeds in magnitude the torque that turns the first part 6 of the handle around the first axis of rotation 4 relative to the second clamping surface 3. This therefore leads to the situation that when the first part 6 of the handle is rotated in the direction of movement 13 from the indicated transport position shown in FIG. 1, first there is a rotational movement of the first part 6 of the handle together with the first clamping surface 2 around the first axis of rotation 4 relative to the second clamping surface 3, and the rotational movement of the first clamping surface 2 together with the second clamping surface 3 around the second axis 5 of rotation does not occur until the moment connecting the first clamping surface 2 to the second clamping surface 3 by means of an interference fit, or by means of a snug fit, possibly achieved by a piece of sheet metal 8 or a similar element clamped between said clamping surfaces 2, 3. In a similar manner, the sequence of movements is determined when opening the portable bending pliers 1. This makes it easy to operate the bending pliers. In this case, the magnitude of the moment of friction forces, which during the operation of the structure has to be overcome, can be adjusted using the fixing screws 12, by means of which the pre-tension of these springs can be set.

The portable bending pliers 1 according to the present invention are characterized by space saving, low weight and easy handling. Therefore, for the above reasons, they are easy to use in a portable mode, for example for bending sheet metal parts 8 on the facade or similar sides of objects. In addition, the portable bending tongs 1, in accordance with the present invention, are made with high strength properties, which makes it possible to use them also under severe operating conditions, in particular on construction sites.

Claims (9)

1. Portable bending pliers for bending sheet metal, comprising a first clamping surface and a second clamping surface, wherein said clamping surfaces are rotatably connected around a first axis of rotation, a first part of a handle and a second part of a handle pivotally connected to said first part of a handle, and the first part of the handle is connected to the first clamping surface, and the second part of the handle is connected to the second clamping surface for rotation around the second axis of rotation, and when the first part of the handle is rotated relative to the second part of the handle in the direction of movement (13) from the transport position, the first clamping surface moves relative to the second clamping surface with the possibility of clamping the part of the sheet metal located between the specified clamping surfaces by means of the specified clamping surfaces, while the first part of the handle is made with the possibility of subsequent rotational movement refer flax of the second part of the handle in the direction of movement (13) with the implementation of the rotational movement of the first clamping surface together with the second clamping surface around the second axis of rotation relative to the second part of the handle to perform bending of the specified clamped sheet metal. 2. The pliers of claim 1, wherein the first axis of rotation and the second axis of rotation are approximately parallel. 3. Pliers according to claim 1, which are configured to clamp the sheet metal by means of said clamping surfaces over the entire area between the first axis of rotation and the second axis of rotation. 4. Pliers according to claim. 1, in which the pivotal connection between said clamping surfaces and / or between the second clamping surface and the second part of the handle is formed by means of a hinge, in particular a piano hinge. 5. The pliers according to claim. 1, in which the first part of the handle is connected to the first clamping surface by means of an intermediate element of a flat shape, and the first part of the handle is preferably connected to said intermediate element of a flat shape by means of at least two connecting positions, which are made, in particular, at the end of the first part of the handle. 6. Pliers according to claim. 1, in which the second part of the handle is connected to the second clamping surface by means of an intermediate element of a flat shape, and the second part of the handle is preferably connected to said intermediate element of a flat shape by means of at least two connecting positions, which are made, in particular, at the end of the second part of the handle. 7. The pliers according to claim 1, in which the first clamping surface is connected to the first part of the handle in a rigid manner, and in the transport position, in which the said parts of the handle fit snugly against each other, the said clamping surfaces are made at an opening angle of 10 ° to 90 ° , in particular from 15 ° to 35 °, preferably about 25 ° relative to each other and open for receiving a portion of the sheet metal therein. 8. Pliers according to any one of claims 1 to 7, which are made in such a way that in the transport position the torque required to move the second part of the handle around the second axis of rotation relative to the second clamping surface is greater than the torque required to move the first part of the handle around the first axis of rotation relative to the second clamping surface, and the movement of the first part of the handle from the specified transport position first initiates the movement of the first part of the handle relative to the second clamping surface. 9. Pliers according to claim 8, in which the hinge link forming the second axis of rotation, in particular the piano hinge forming the second axis of rotation, is provided with at least one spring for applying to the said hinge link a friction force acting between the parts of said hinge link, which are made with the possibility of movement relative to each other to create a torque necessary to initiate the movement of the specified hinge connection, and with the possibility of adjusting the elastic force of the spring, in particular by means of the fixing screw.

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