DE1037233B - Knife movement for guillotine shears - Google Patents

Description

Knife movement for guillotine shears The invention relates to the Knife movement for guillotine shears with knives that form a cutting angle with one another, and it is based on the task of guiding the knife movement in guillotine shears in such a way that that a straight and untwisted cut when cutting narrow sheet metal strips is achieved.

Experience has shown that when cutting narrow sheet metal strips, use sheet metal shears an absolutely straight cut is hardly possible. In practice one therefore speaks of so-called »saber cut«. The cutting result gets worse, the narrower, the softer and thicker the cut sheet metal strip is.

What is important for the following consideration is the fact that the cut line on the sheet of metal left on your table, and be it only a narrow remaining strip, practically straight, while the separated one Metal strips of the same width at every point. but crooked and possibly still twisted fails. The cut sheet metal strip takes from the remaining sheet metal sheet seen, imiiler a convex shape.

The cutting process causes the cut to bend Sheet metal strips instead. This change in shape is the result of an unequal length of the two edge zones. The comparison of the two edge zones also clearly shows that Difference in stresses. Hardly noticeable pressure marks on the lower blade leaves the opposite edge zone under the action of the upper knife strongly depressed and therefore longer.

The inclination of the upper knife according to your cutting angle caused by the progressive turning in the direction of movement of the Oberinesser and through the gaping of the cutting gap, a further elongation of this edge zone.

Of major influence on the unequal elongation of the two rail zones is also the type or direction of movement of the upper knife. This until today completely misunderstood fact is the starting point of the invention.

Plate shears with a "vertical cut" are known. Here is the one placed at a certain angle, your so-called cutting angle Upper knife moved perpendicular to the cutting edge of the fixed lower knife.

Table shears are also known in which the upper knife is below is moved at an angle to the cutting edge of the fixed bedknife. Is called this type of movement is called the "pulling cut". To this type belong in the context of Invention also the table shears, in which the upper knife describes a curved path.

It is crucial that with all previously known types of knife movement the direction of movement of the upper knife with the part of the sheet metal strip that has not yet been cut encloses an angle equal to or less than 90 °. It is therefore also found in everyone previously known designs a relative movement between. the upper knife and the metal strip to be separated instead, which is an additional extension of the anyway causes already more stressed edge zone on the strip to be separated.

The essence of the invention is that the direction of movement of the movable 1lesser with your not yet separated part of the sheet metal strip encloses an angle greater than 90 ° but less than 180 ° during the shearing process. This will have the lengthening effect on the edge zone of the cut sheet metal strip as a result of the relative movement between the movable knife and the sheet metal strip very substantially reduced.

In particular, the upper knife is moved so that a minimum of relative movement occurs. This is the case when the direction of movement of the upper feeder coincides with the part of the sheet metal strip that has not yet been cut forms an angle Q81 @, 90 -I-- 2, where the angle α is the angle between the cutting edge on the lower blade and the cutting edge forms on the upper knife.

The invention is described using an exemplary embodiment and shown in the drawing. 1 shows the various types of knife movement and its influence on the relative movement between the upper knife and the sheet metal, FIG. 2 a longitudinal section through the cutter bar drive.

The lower cutter 1 is fixedly mounted in the scissors body 2 while the upper cutter 3 is attached to the linearly movable upper cutter bar 4. By the inclination of the upper knife according to the Cutting angle a, the sheared part of the sheet metal strip is bent downwards from the thickness S. Describes the movement of the upper knife from position I to position II z. B. the particle o on the surface of the sheet approximately an arc of a circle around the point in and comes after o '. With the »vertical cut« (shown Through the direction of movement .4) there is a relative movement between the upper cutter and sheet metal of size a, while with the "pulling cut" (upper knife in direction B moves) such a relative movement of size b takes place.

In contrast, according to the invention, the upper knife z. B. in the direction C moves so that a minimum of relative movement takes place between the upper knife and the sheet metal. Practical tests have shown that with this type of knife movement a very significant improvement of the cutting result is achieved.

For this purpose, for example, the cutter bar is guided in the guides 5 and 5a. It is driven by two toggle levers which are fixedly but pivotably mounted on the scissors body in FIGS. 6 and 7. The toggle levers consist of tabs 8, 9 and 8a, 9a. and are hinged to the upper cutter bar in FIGS. 10 and 10a, respectively. The movement of these toggle levers is brought about by the crankshaft 11 via the pull rod 12 and push rod 13.

Claims (2)

PATENT CLAIMS: 1. Knife movement in guillotine shears with a cutting angle interconnected knives, characterized in that the direction of movement of the movable knife with the not yet separated part of the sheet metal strip encloses an angle greater than 90 ° but less than 180 ° during the shearing process. 2. Knife movement according to claim 1, characterized in that the angle (ß1) has a size which is determined by an angle of 90 ° and half or approximately half the cutting angle (a) between the upper knife and lower knife. Documents considered: German Patent No. 481 902; French patent specification No. 993 769.