EP0058827B1 - Lever tool - Google Patents

Description

The invention relates to a lever tool for increasing the force in presses and the like., Consisting of a holding plate attached to the ram of the machine, a movable tool part connected to it and a mounting plate for a fixed tool part, the force being introduced centrally via the holding plate in Axis direction of both tool parts is directed.

A press for punching, embossing, deep drawing and the like consists, among other things, of a ram driven in various ways and a base plate connected to the frame. The plunger and base plate have facilities for holding interchangeable tools. The usability of the press is limited, among other things, by the maximum pressing force and the stroke. For cost reasons, the machines required by industry are usually purchased according to their performance in running products. It is not uncommon for products to arise unexpectedly, which can no longer be processed with the existing machine equipment because the requirements exceed the technical data. This is particularly often the case with regard to the available pressing force.

The object of the invention is to provide a simple auxiliary device for presses with which the pressing force effective on the tool can be increased without having to make major changes to the press.

The object is achieved in that the movable tool part is mounted in a pivot point arranged between the ends of a lever, one end of which is articulated to the holding plate and the other end of which is articulated to the receiving plate.

With this simple design, an increase in the pressing force effective on the tool is achieved according to the lever law. The force is applied by the plunger via the holding plate attached to it on one end of the lever, which is connected to the holding plate via a swivel joint. The other end of the lever is connected to the mounting plate via a further swivel joint. Another pivot point is arranged between the ends of the lever, on which the movable tool part is mounted. If this fulcrum is located exactly in the middle between the ends of the lever, the force introduced at the point of application of the ram is doubled on the movable tool part according to the lever law. Depending on the arrangement of this fulcrum, the factor of increasing the force can be changed as desired. With this simple measure, however, it must be accepted that the stroke of the movable tool part is reduced by the factor of the increase in force. However, this disadvantage does not have a disruptive effect in most cases, since the presses are designed for a relatively large stroke of the ram.

According to a further feature of the invention, at least one of the ends of the lever is articulated to the holding plate or to the receiving plate via compensating arms.

This measure compensates for the horizontal displacement of the pivot points at the ends of the lever in the entire stroke range of the ram.

In another embodiment, the fulcrum is optionally located at different locations between the ends of the lever.

As a result, the degree of force increase can be set in a simple manner and adapted to the respective application. If the fulcrum for the movable tool part coincides with the end of the lever connected to the holding plate, no increase in force is achieved and the pressing force of the ram is effective on the movable tool part. If the fulcrum lies in the middle of the lever, the pressing force doubles and can be further increased by moving the fulcrum towards the other end of the lever connected to the mounting plate.

In another embodiment according to the invention, the receiving plate for the stationary tool part is formed separately from the frame.

The stability of the press frame is often not sufficient, so that this must be reinforced by suitable measures. One possibility is to provide a separate plate that meets the requirements for receiving the stationary tool part. The lever end is attached to this, for example via an above-mentioned compensating arm. The mounting plate itself is detachably anchored to the press frame. The pressing force obtained by the lever tool according to the invention is in this case transmitted as a tensile force via the compensating arm to the separate mounting plate, so that no overloading of the press frame occurs.

According to a further feature of the invention, at least two levers arranged symmetrically to the axis of the tool parts are provided.

This allows a reasonable division at relatively high forces, so that the individual pivot points only have to transmit a corresponding proportion of the total force and can therefore also be made weaker. Another advantage is that with a uniform distribution of several levers around the axis of the tools, good guidance of the movable tool part takes place at the same time.

In a further embodiment according to the invention, an axial guide running in the direction of the tappet is provided.

For applications in which the two tool parts have to work together very precisely, for example when punching, the lever tool is provided with an additional axial guide for the movable tool part. For example, in the extension of the ram, a guide pin is attached, on which the movable tool part can slide in the axial direction. The levers then have the task of power transmission.

According to a further feature of the invention, the holding plate, the receiving plate, the two tool parts, the levers and the compensating arms form a replaceable unit.

This preferred version can be installed in the press in a few simple steps. The force ratios are matched to the two tool parts and the workpiece to be manufactured. A lever tool that is optimized on all sides can thus be provided as an exchangeable component.

The invention shows a solution which can be used for many cases and which is economically effective in particular when the existing mechanical devices are overwhelmed with regard to power reserves.

• Fig. 1 ein Hebelwerkzeug mit zwei Hebeln und Aus^gleichsarmen in Seitenansicht und
• Fig. 2 ein Hebelwerkzeug mit vier Hebeln und Ausgleichsarmen in Draufsicht.
• Fig. 1 zeigt ein Hebelwerkzeug, beispielsweise für eine vertikal arbeitende Presse. In der linken Bildhälfte ist der Stößel 1 abgesenkt, während die rechte Bildhälfte die Ausgangsposition darstellt.

The invention is described below with reference to the examples shown in the drawing. It shows

• Fig. 1 shows a lever tool with two levers and ^g garmsarm in side view and
• Fig. 2 shows a lever tool with four levers and compensating arms in plan view.
• Fig. 1 shows a lever tool, for example for a vertical press. In the left half of the picture, the plunger 1 is lowered, while the right half of the picture shows the starting position.

The lever tool consists essentially of a holding plate 2, a tool holder 3, a receiving plate 4 and a lever mechanism described in more detail below. On the tool holder 3, two diametrically opposed pivot points 5 are provided which, via bolts 6, form the bearing points of two levers 7 of the same design. The corresponding pivot point 5 on the lever 7 is arranged in the middle between the ends 8, 8 '. The end 8 is articulated to the holding plate 2 via a compensating arm 9, the end points of which are also articulated via bolts 6. The other end 8 'of the lever 7 is articulated to the mounting plate 4 in the same way via a further compensating arm 9'. The compensating arms 9, 9 'have the task of compensating for the relative horizontal displacement of the ends 8, 8' when the lever 7 moves about its center pivot 5. This is clearly evident when comparing the right half with the left half.

The mounting plate 4 is firmly connected to the frame 11 of the press by means of screws 10 and has a stationary tool part 12. The holding plate 2 is firmly connected to the plunger 1 of the press. The plunger 1 is axially extended by sliding bolts 13 on which the tool holder 3 is guided axially. The tool holder 3 receives a movable tool part 14.

During operation, the press force acts on the inner ends 8 of the levers 7 through the plunger 1 of the press via the holding plate 2 and the compensating arms 9. Since the outer ends 8 'of the lever 7 are connected to the mounting plate 4 via the compensating arms 9' and cannot change their position in the direction of the pressing force, the distance between the ends 8, 8 'is the power arm of the lever 7. The load arm is in the example shown half of the power arm and is formed by the distance between the center pivot point 5 connected to the tool holder and the outer ends 8 '. Since the ratio between the force arm and the load arm is 2: 1, the lever 7 acts on the tool holder 3 via the center pivot 5, twice the pressing force applied by the plunger 1. The outer compensating arms 9 'connected to the mounting plate 4 are subjected to tension and must derive the difference in forces. The receiving plate 4 is therefore subjected to bending and is designed with regard to its strength so that the additional, occurring due to the increase in force from the frame 11 of the press is kept away.

The lever tool shown in FIG. 2 differs from the one described with reference to FIG. 1 only in the symmetrical arrangement of four levers 7 with the corresponding compensating arms 9. The tool holder 3 has continuous bolts for two levers 7 in place of the pivot points 5 15 on. In the same way, the corresponding pivot points of two balancing arms 9 and 9 'are connected to the levers 7 by common bolts 16. The tool parts 12, 14 are arranged between the sliding bolts 13.

It is conceivable that auxiliary devices, such as those represented by the lever tool according to the invention, can be used in all machine and manual functions in which a linear force has to be generated.

Claims (7)

1. Lever tool to increase the force of presses and similar equipment, consisting of a retaining plate (2) attached to the ram (1) of the machine, a moving tool part (14) attached thereto and a receiving plate (4) for a stationary tool part (12), where the load is centrally applied via the retaining plate in axial direction of both tool parts, characterized in that the moving tool part (14) is supported in a pivot (5) arranged between the ends of a lever (7), one end (8) of which is articulated at the retaining plate (2) whilst the other end (8') is articulated at the receiving plate (4).

2. Lever tool as claimed in claim 1, characterized in that at least one of the ends (8, 8') of the lever (7) is articulated at the retaining plate (2) or the receiving plate (4) by means of compensating arms (9,9').

3. Lever tool as claimed in claims 1 or 2, characterized in that the pivot (5) is optionally arranged at different points between the ends (8, 8') of the lever (7).

4. Lever tool as claimed in one of the claims 1 to 3, characterized in that the receiving plate (4) for the stationary tool part (12) is formed separately from the frame (11).

5. Lever tool as claimed in one of the claims 1 to 4, characterized in that there are at least two levers (7) arranged symmetrically to the axis of the tool parts (12, 14).

6. Lever tool as claimed in one of the claims 1 to 5, characterized in that there is an axial guiding element (13) for the moving tool part (14), extending in the direction of the ram (1).

7. Lever tool as claimed in one of the claims 1 to 6, characterized in that the retaining plate (2), the receiving plate (4), the two tool parts (12, 14), the levers (7) and the compensating arms (8) form an interchangeable unit.

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