DE1957052A1 - Stress-free machine frame for scissors, presses of all kinds, forging machines and the like. - Google Patents

Description

Stress-free machine frame for scissors, presses of all kinds, forging machines and the like in shears, presses of all kinds, forging machines and the like the C-frame is used. On the one hand, there is a on the free legs Fixed work table or tool, on the other hand a movable tool slide arranged. The workers try to push the free thighs apart and trigger stresses and deformations in the C-frame, which affect the position of the Adversely affect the tools and the guides of the tool slide. Despite These disadvantages, the C-Gstell is preferred because it has great advantages in Relation to accessibility and free space for tool and workpiece guaranteed.

The invention relates to a novel machine construction in which the occurring workforce in relation to the guides perfectly balanced and the movable tool carrier is designed as a carrier on two it-uikst supports can be that no major, noticeable deformations can occur. Corrosive too new possibilities for fastening and training the tools are created The subject of the invention is shown in Figures 1 - 6. It denotes P the work force and a their distance from the center of the piston rod 3 and K the in the same direction as the working force P acting counterforce at a distance b from the piston rod. The moments P. a and K. -b formed from these values are Execute the same size as possible so that the guides for the tool carrier 1 are unloaded remain and the piston rod 3 loaded by the work force Z is only stressed to below will. The piston force Z from the sum of P + K is on the piston rod side of the piston 4 generated in the cylinder 5, this cylinder space, as in Figure 2 see, is connected to the cylinder chamber 7, i-n which-the piston 6 the counterforce K triggers. The working pressure HD is through this connection of the cylinder chambers the forces P and K -determined and only dependent on the working force -P; The backward movement of the tool carrier 1 takes place via the line ND, 4ueeh which both to the piston side of the cylinder 5 and connected to the cylinder 7 via a check valve 9 is. If the tool holder 1 is pushed by the piston rod 3 in working direction moves, the check valve 9 closes and the one displaced from the cylinder 7 Liquid is the working space of the cylinder 4, as the dotted areas show, fed. This ensures that the counterforce K does not cause any loss of power entry.

The amount of liquid required in the unit of time therefore becomes only from the piston area determined by the working force P and the working speed certainly. No additional power is required from the counterforce.

The tool carrier 1 with the tool surface 2 is held by the piston rod 3 through the piston 4, which is guided in the cylinder 5, by means of liquid and moved. The support piston 6 in the cylinder 7 follows the movements of the Tool carrier 1st cylinder 5 and 7 are housed in the machine frame 8, they can, however, also be used together in the tool holder or, depending on the requirements, be housed in both parts.

In Figure 3 there are 2 tool carriers, each one in the machine frame 8 guided, movably arranged. The lower tool carrier is through the Piston 10, d-the upper moved by the piston 4, which together in the cylinder 5 u-nt-er-gebr-ac-ht and the piston rod 3 is guided through the piston 10. By feeding Both tool carriers move pressure fluid into the spaces indicated by dotted lines to each other and generate the work force P. Mitt-eis -the edition 11 can the situation both tool carriers can be determined.

The worker P can depending on the type and shape of the tool Change the distance a from the piston rod. As shown in Figure 4, is through a Device 12, the point of application of the force K adjustable, so that the moments are balanced and enables a tension-free machine frame even when the tool is changed is.

If the machine needs a very long working area, as in Press brakes and shipbuilding presses, so several cylinders can be placed side by side as shown in Figure 5.

With this arrangement, the tool carrier 1 is because its Load distributed over several points, more favorably stressed and more rigid.

The hydraulic drive has become a closed circuit due to its good controllability of both the speed and the direction of movement proven. There is a requirement that the supply and discharge volume as possible is the same size and the tool holder 1 itself synchronized with the rag adjustment emotional. In Figure 6 de promotion is achieved according to the same volume in that the piston rod 3 and the compensating piston 6 have surfaces of the same size, i.e. the amount of liquid supplied by the pump 13 on the piston side of the piston 4 additionally receives the amount of the compensating cylinder 7 and is the same size as on the piston side displaced amount. The arrangement of the closed circuit allows any movement of the tool carrier in terms of lifting height, speed and time to drive precisely so that new job opportunities are opened up. By the large receiving surface 2 on the tool carrier 1 are the most varied of tools to attach. According to the invention, the previous C-frame is replaced by a machine frame replaced that is free from tension. Clearly recognizable effects act on the tool carriers Forces that are absorbed by precisely definable cross-sections. The workforce are generated by a piston rod that is subjected to tensile stress.

The tool carrier allows many tools to be used.

- Claims -1. Stress-free machine frame for scissors, All types of presses, forging machines and the like, characterized in that the moment from the working pressure (P) and the distance to which the work is being carried out Rod (3) an equal or approximately equal moment from a piston (6) in the Cylinder (7) is applied, the distance being fixed or variable -, on.

2. Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that the tool carrier (Fig. 1) or the tool carrier (Fig. 2) can be calculated as a door on two supports can.

Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that the guides of the vial center carrier (1) are unloaded.

4. Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that the piston rod side of the working cylinder (4) is connected to the compensating cylinder (7) by a line is.

Claims (1)

5. Tension-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that both the upper, than the lower tool carrier (Fig. 5) can also be moved 6. Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that several cylinders (Fig 5) are arranged side by side. 7-. Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that the tool carriers are provided with a large area (2) for holding tools. 8. Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that the piston rod cross-section and the cross section of the compensating piston are kept the same size and a pump unit is connected in a closed circuit. 9. Stress-free machine frame for scissors, presses of all kinds, Forging machines and the like, characterized in that the low-pressure line (IçD Fig. 2) both on the piston side of the working cylinder (5) and via a Check valve is connected to the compensation cylinder (7). L e r s e i t e