DE1030657B - Crank guillotine shears with the drive of the cutter bar that can be moved up and down above the table below the fixed knife table - Google Patents

Description

Crank guillotine shears with lying below the fixed knife table Drive of the cutter bar that can be moved up and down over the table. The invention relates to crank guillotine shears with a drive below the fixed knife table of the knife bar that can be moved up and down over the table, and it lies with you Task based on eliminating the overturning moment as possible, which is due to such Scissors usual flat or prismatic guides on both sides of the cutter bar work. The occurrence of a tilting moment is said to be based on the example of a widespread design of crank guillotine shears with reference to the schematic Fig. 1 of the drawing initially explained will.

In it, the executives are on the moving knife bar through the Arrows F1 and F2, the forces caused by the eccentric indicated by the arrows Ei and E2 and the cutting forces on the movable knife, which is marked with a hatched Rectangle indicated fixed knife cooperates, shown by the arrows S1 and S2.

Fig. 1. shows that the shear edges of the knives are outside the lie through the center of the flat guide vertical plane. Consequently steps up and down on the lead as a result of those sketched in the secondary figure acting and opposing resulting forces create a significant overturning moment on.

Crank guillotine shears are already known in which the shear edges the knife and the points of application of the crank drive on the guide parts of the knife bar lie in the same vertical plane. With this arrangement, the risk of tipping is reduced, and the invention is therefore based on this over others already more advantageous Type of crank guillotine shears, but eliminates that even with this type of construction existing defects.

The invention consists in avoiding the also in this Type of construction still used flat or prismatic guide of the cutter bar with your crank drive by means of the rounder in the knife table in two centrally adjustable bushings each Pillars is connected, the axes of which in a manner known per se with the points of application of the crank drive and also the crankshaft axis in the same vertical plane lie.

The connection of the cutter bar or an upper crosshead supporting it with the crank drive through round columns guided in the knife table, their axes with the points of application of the crank drive and also the crankshaft axis in the same Vertical plane is so far only known in a machine that with flying Cutting or punching tools, namely in the upper crosshead and in the lower table tools that can be moved horizontally back and forth. With this well-known The machine therefore obviously serves to guide the column of the upper crosshead not as with the invention of avoiding the tilting moment on the cutter bar guide, but has been made for other reasons that are not of further interest here.

It is also important in the invention that the one round guide performing pillars are guided in two centrally adjustable bushings each. This measure was taken in the knowledge that with the previous Design of crank guillotine shears that inevitable wear of the flat or Prismatic play occurring even at the smallest extent increases the risk of tipping. This also explains why the cutter bar becomes restless even with the slightest play runs and delivers an unclean cut. Furthermore, the guides become uneven worn out, so that, despite readjusting the guide strips, they are no longer on the whole Wear the guide surface clean. Furthermore, the adjustment of the cutter bar guide With the known designs, a new adjustment of the cutting blades is always necessary. All these disadvantages mentioned are eliminated by the invention at the same time.

In Fig. 2 is an embodiment of the invention in a section represented by the round column guide on one side of the crank guillotine shears. the the other side is designed in the same way.

The cutter bar 1 is at both ends. with a round guide pillar 2 fixed, e.g. B. by a screw connection. In table 3, which is at the same time Side stand and traverse replaced, reducing the machine weight and manufacturing costs noticeably are reduced, the columns 2 in a strong tubular bearing 4 with two bushings 5 seated in it each. These cans. 5 are slotted and can be readjusted centrically using the round nuts 6. It is advisable, by using the longest possible bearing tube 4 as far apart as possible to set and to make the outside conical. In this way at the same time the danger of tipping over to reduce even further and to simplify the adjustment. The drive takes place in a known manner via an eccentric 7 seated on the crankshaft, an eccentric lever 8 and. the bolt. 9. This bolt 9 is stored in the bottom of the column 2, and above the attack of the drive on the column is transmitted to him.

The schematic FIG. 3 shows in comparison to FIG. 1 the achieved Success in eliminating the overturning moment. The shear edges of the knives, the point of attack of the crank drive and also the crankshaft axis are all in the same place Vertical plane, so that no more tilting forces arise, as in the secondary figure emerges.

Claims (1)

PATENT CLAIM Crank guillotine shears with lower hall) of the fixed knife table horizontal drive of the knife bar that can be moved up and down above the table, where the shear edges of the knives and the points of application of the crank drive the guide parts of the beam lie in the same vertical plane, characterized in that dali the cutter bar (1) with the crank drive (? to 9) by means of the cutter table (3) in two centrally adjustable bushings (5) each guided round columns (2) is connected, the axes of which are known per se with the points of application (9) of the crank drive and also the crankshaft axis in the same vertical plane lie. References considered: U.S. Patents No. 2,156,323, 2 251 153.