EP0186878B1 - Pressing tool - Google Patents

Abstract

1. A pressing tool (5), having - a lower press plate (19) which is movable in a vertical direction in a shaping ring (18) and the upper side (6) of which forms with the shaping ring (18) a mould for the material being pressed, - an adjusting plate (1) which is arranged beneath the lower press plate (19) and on the upper side (4) of which the lower press plate (19) bears with its underside, and which is adjustable in its inclination with respect to the longitudinal axis L of the pressing tool (5), - a base plate (2) which is arranged beneath the adjusting plate (1) and connected to the adjusting plate (1) by means of screw bolts (16) not fully tightened, and the upper side (29) of which base plate (2) is engaged with the underside (34) of the adjusting plate (1), - an upper press plate (26) cooperating with the lower press plate (19), - and a hydraulic lifting device (3) to raise the adjusting plate (1), characterized in that - there is provided for the adjustment of the inclination of the adjusting plate (1) the hydraulic lifting device (3) arranged in the region (17) of the adjusting plate (1) facing the base plate (2) or in the region (33) of the base plate (2) facing the adjusting plate (1) and this is controlled by means of a master cylinder (8) which is connected with it by way of a hose or pipe (7) and arranged outside the pressing tool (5), and in which there is situated a piston (10) adjustable by means of a setting screw (12) against the pressure of a spring (9) to produce the pressure in the hydraulic lifting device (3), the adjusting plate (1) an base plate (2) being connected by means of two screw bolts (16), and the pressing tool (5) forming part of a hydraulic press (20) in which several pressing tools (5) are arranged in tool tables (13 ; 13a).

Description

The present invention relates to a pressing tool according to the preamble of claim 1 and its use. Pressing tools of the type mentioned are known as components of hydraulic presses. The lower press plates are arranged in bushings, the so-called press rings, which are usually embedded in tool tables. The shape of the compact is formed by the press ring and by the upper side of the lower press plate which is movable in the vertical direction in the press ring and which is lowered during the filling process with the material to be pressed. The mold is filled by a filling funnel which is filled with the material to be pressed and is slidably mounted above the tool table, the lower opening of which runs a short distance above the tool table. The filling funnel has approximately the same width as the tool table, so that the molds attached in the tool table can be filled in a single operation if the filling funnel is guided away over the tool table. A scraper resting on the tool table is attached to the filling funnel and, after the filling process, wipes off the material that protrudes beyond the mold edge in order to achieve a uniform filling of the mold. After the filling process has been completed, the tool table is moved under an upper tool provided with corresponding upper press plates. After the pressing process has been completed, the upper tool is raised, the tool table is brought into its starting position and the finished compact is ejected from the mold by lifting the lower press plate.

The wiping movement of the wiping causes a higher filling density of the pressing material in a previously unavoidable way, especially when processing granular pressing material in certain areas of the mold. This is usually the area near the edge of the mold over which the stripper travels in the last phase of its stripping motion. In the case of a large number of technical products, however, uneven compression in certain areas cannot be accepted, for which reference is made, for example, to highly sensitive electronic components and to cutting and grinding wheels, for which extremely small irregularities lead to imbalance. To compensate for uneven compression, an adjusting plate with an inclination to the longitudinal axis of the pressing tool is therefore provided below the lower pressing plate in pressing tools of the type described. This adjustment plate is connected to a base plate located below the adjustment plate by mostly three screws evenly distributed on it. In a circular shape, for example, the screws or bores can be arranged offset by 120 °. Usually, one of the screws is arranged so that it lies on an imaginary line that, starting from the center of the circular shape, corresponds to the direction of movement of the wiper. The screw is attached in the edge region of the mold, in which a higher compression results from the stripping movement of the stripper. By appropriately loosening and tightening mostly only this one screw, the inclination of the adjustment plate to the longitudinal axis of the pressing tool can be changed, i.e. the setting plate and with it the lower press plate is slightly raised in this area, which results in a somewhat lower filling height of the mold in this area. This compensates for the local compression. In order to be able to change the inclination of the lower press plate without it jamming in the press ring, it is necessary to provide a small gap between the press ring and the lower press plate. Since the material to be pressed can inevitably get into this gap in itself, permanent magnets are attached to the top of the setting plate, which, when the lower press plate is lowered, ensure a secure connection between the setting plate and the lower press plate and jamming of the lower press plate through into the Counteract the gap between the lower press plate and the press ring.

The disadvantage of these known pressing tools is that a readjustment of the setting plate requires the removal of the lower pressing plate in order to be able to adjust the screws attached in the setting plate. Since new hires are not only required when changing the mold, but usually also when processing a new batch of press material, and the accuracy of the setting can only be checked empirically and the setting therefore has to be corrected under certain circumstances, considerable, cost-causing downtimes occur on the machines concerned. A press tool is known from DD-A-73 272, in which the adjustment of the angle of inclination of the lower punch plate is carried out with the device described below. This device consists of a screw bolt guided by a spring or a «hydraulic thrust piston», for which it is stated that the force of the spring is bridged during the pressing process. To adjust the lifting height, an adjusting screw is used both when using a spring and when using a hydraulic thrust piston. Base plate and adjustment plate are connected by a screw, whereby nothing is said about the number of these screw connections or about the number of adjustment devices. The disadvantage of this known device can be seen in the fact that the adjustment of the lifting height has to be carried out by means of the adjusting screw described, the accessibility of which is no longer provided if several pressing tools are arranged side by side in a tool table of a hydraulic press.

The present invention aims to eliminate these disadvantages and sees its task in providing a press tool in which the setting plate can be adjusted in its inclination to the longitudinal axis of the press tool without the cumbersome removal of the lower press plate.

To achieve this object, the invention provides the characterizing features of claim 1 in a pressing tool of the type described in the introduction.

The wording “adjustment of the inclination of the adjusting plate to the longitudinal axis of the pressing tool” expresses within the scope of the claims and description of the present invention that by raising or lowering one or more points on the adjusting plate, the latter is adjusted in such a way that the angle changes, which is formed by the longitudinal axis of the pressing tool and the plane formed by the upper end face of the adjusting plate.

The present invention allows the adjustment plate to be adjusted without removing the lower press plate and thus leads to a drastic reduction in the times previously required for setting up the tools. By simply adjusting the piston of the master cylinder by means of an adjusting screw, the inclination of the adjusting plate of the pressing tool according to the invention can be adjusted, so that the filling height of the pressing tool changes at the desired points, which compensates for the higher filling density at these points and thus, for example the unbalance is counteracted when manufacturing a grinding wheel.

If, according to the present invention, a lifting device is arranged in the region of the setting plate opposite the base plate, the piston of the lifting device is arranged such that it is directed against the base plate, while the cylinder forming a unit with the setting plate for adjusting the setting plate in the direction of the lower one Press plate is moved.

If, according to a further embodiment of the present invention, a lifting device is provided in the area of the base plate adjacent to the setting plate, the lifting device works by moving the piston acting on the underside of the setting plate up and down.

It has proven to be expedient for many applications to arrange the lifting device in the mold area near the edge, via which the stripper is guided in the last phase of its stripping movement. The lifting device is arranged in such a way that the center of the lifting device lies on the radius, which, starting from the center of the lower pressing tool, is congruent with the direction of movement of the filling funnel or of the scraper.

In such a pressing tool, the base plate and adjusting plate are expediently connected by connecting elements, such as screw bolts or hinges. If the base and adjustment plate are connected by screw bolts, preferably two screw bolts are to be provided, according to an expedient embodiment the screw bolts and lifting device are arranged such that the screw bolts form the two end points of the base line of an isosceles triangle and the lifting device with its center point exactly lies on the perpendicular of the base line of this triangle. In order to have a certain freedom of movement for the adjustment of the adjustment plate, the screw bolts must not be tightened firmly and thus form a tipping point for the adjustment plate. Compression springs, preferably in the form of disc springs in recesses, which are provided in the area of the base plate adjacent to the setting plate above the threaded holes, press the setting plate against the screw heads.

An embodiment of the present invention has proven to be particularly suitable, in which the piston of the lifting device acting against the adjusting plate or base plate is not flat on the end face but spherical.

The present invention is particularly suitable for the production of compacts which are produced from granular material to be pressed. The present invention is particularly suitable for the production of cutting and grinding wheels.

Known hydraulic fluids, in particular glycerin, are suitable for filling the hydraulic lifting device.

The following figures serve to explain the invention in more detail without restricting the invention to the embodiments shown.

• Figur 1: die Aufsicht auf eine hydraulische Presse,
• Figur 2: die Aufsicht auf einen nur teilweise dargestellten Werkzeugtisch mit abgehobenen unteren Pressplatten.
• Figur 3: die Seitenansicht auf ein Presswerkzeug entsprechend dem bekannten Stand der Technik, bei dem der untere Teil im Längsschnitt dargestellt ist, entlang der Linie 111-111 von Figur 2,
• Figur 4: die Seitenansicht auf ein Presswerkzeug entsprechend der vorliegenden Erfindung, bei dem der untere Teil im Längsschnitt dargestellt ist, entlang der Linie IV-IV von Figur 2,
• Figur 5: die Seitenansicht auf ein Presswerkzeug entsprechend einer weiteren Ausführungsform der vorliegenden Erfindung, bei dem der untere Teil im Längsschnitt dargestellt ist,
• Figur 6: einen im Schnitt dargestellten Geberzylinder zur Einstellung der unteren Pressplatte bei einem Presswerkzeug gemäss vorliegender Erfindung.

Show it:

• Figure 1: the supervision of a hydraulic press,
• Figure 2: the top view of a tool table shown only partially with raised lower press plates.
• 3: the side view of a pressing tool according to the known prior art, in which the lower part is shown in longitudinal section, along the line 111-111 of FIG. 2,
• 4: the side view of a pressing tool according to the present invention, in which the lower part is shown in longitudinal section, along the line IV-IV of FIG. 2,
• FIG. 5: the side view of a pressing tool according to a further embodiment of the present invention, in which the lower part is shown in longitudinal section,
• Figure 6: a master cylinder shown in section for adjusting the lower press plate in a press tool according to the present invention.

The hydraulic press (20) shown in FIG. 1 can be loaded on both sides. The press rings (18, 18a) are in tool tables (13, 13a) embedded, in which the lower press plates (19, 19a) are arranged. Filling hoppers (14, 14a) serve to fill the molds formed from press rings (18, 18a) and lower press plate (19, 19a). Strippers (15, 15a) are attached to the filling funnels (14, 14a). In the area (21) of the hydraulic press (20), separate upper pressing tools, not shown, are arranged for each side. Press mandrels (40) are used to create a center hole in the manufacture of cutting discs.

Figure 2 shows a partially shown tool table (13), in which in the left half of the figure according to the known prior art three screw bolts (16), see. Figure 3, of which screw heads (38) are shown for adjusting the adjustment plate (1) and for fastening it to the base plate (2).

The right part of FIG. 2 shows a pressing tool according to the invention, in which a lifting device (3), which is arranged in the area (17) of the adjusting plate (1) (see FIG. 4) opposite the base plate (2), for adjusting the adjusting plate (1) serves. The inclination of the adjusting plate (1) can be adjusted by actuating the lifting device (3), so that the lower pressing plate (19) (FIG. 4) resting on the adjusting plate (1) also has a different inclination and is thus identified by the arrows Area gives a different fill level of the shape. In the upper left corner of the figure, an arrow A indicates the direction of movement of the hopper and scraper. Screws (16), of which only screw heads (38) are shown (see FIGS. 4 and 5), serve to fasten the adjusting plate (1) and the base plate (2) attached below it (FIGS. 4 and 5). Magnets (23) on the top (4) of the adjusting plate (1) connect the lower pressing plate (19) and adjusting plate (1) during the pressing process. Press mandrel (40) serves to create the center hole in the compact and at the same time forms the longitudinal axis L of the pressing tool (5).

Figure 3 shows a pressing tool (5) according to the known prior art. In the tool table (13), a compact (18) is inserted, in which the lower press plate (19), which interacts with the upper press plate (26), can be moved in the vertical direction to eject the compact, not shown, and to change the thickness of the compact . The top (6) of the lower press plate (19) forms, together with the press ring (18), the shape for the compact. The adjusting plate (1) is arranged below the lower press plate (19), on the upper side (4) of which the press plate (19) rests with its underside (41). Underneath is the base plate (2), the top (29) of which engages with the bottom (34) of the adjustment plate (1) via compression springs (disc springs). Magnets (23) connect the lower press plate (19) and the adjusting plate (1) to enable the lower press plate (19) to be safely lowered even if particles of the material to be pressed have reached between the press ring (18) and the lower press plate (19) . To adjust the adjustment plate (1), the lower press plate (19) must be removed so that the angle a, which the level formed by the upper end face (4) of the adjustment plate (1), has with the by loosening or tightening the screw bolts (16) To be able to adjust the longitudinal axis L of the pressing tool (5). The bolts (16) are screwed into threaded holes (25) in the base plate (2). The compression springs (24) in recesses (27) press the setting plate (1) against the screw heads (38). The base plate (2) rests on a lifting plate (22) which is guided in columns, not shown. There is a small gap between the press ring (18) and the side edges of the lower press plate (19) to prevent the lower press plate (19) from jamming in the press ring (18) when its inclination is changed by adjusting the setting plate (1) .

The pressing tool (5) according to the invention shown in FIG. 4 is distinguished from the device shown in FIG. 3 by a lifting device (3) which is arranged in the region (17) of the adjusting plate (1) opposite the base plate (2). The lifting device (3) is actuated with the master cylinder (8) shown in FIG. (6) via the hose / pipe (7). A closable bore (28) serves to vent the lifting device (3). The lifting device (3) consists essentially of pistons (30) against the upper side (29) of the base plate (2). The seal between the cylinder (31) and piston (30) is made by sealing rings (32). The pressure of the piston (30) creates a wedge gap between the adjusting plate (1) and the base plate (2) at the point marked with an arrow S. The angle a is adjusted, which is formed by the plane formed from the upper side (4) of the setting plate (1) and the longitudinal axis L of the pressing tool. Magnets (23), only one of which is shown, connect the adjusting plate (1) and the lower press plate. Screw bolts (16), of which only one is also shown, serve as in the known pressing tool to connect the setting plate (1) and base plate (2), but are not tightened as in the known pressing tools, so that a certain freedom of movement for the Adjustment of the adjustment plate is given. The functions of the lifting plate (22) and the upper pressing plate (26) correspond to the embodiment of the known pressing tool described in FIG. 3.

FIG. 5 shows a further embodiment of a pressing tool according to the invention, in which the lifting device (3) is arranged in the region (33) of the base plate (2) opposite the setting plate (1). With this arrangement of the lifting device (3), the piston (30) presses against the underside (34) of the adjusting plate (1) and thereby causes a different inclination of the adjusting plate (1) or the lower pressing plate resting thereon. Otherwise, this embodiment of the pressing tool corresponds to the embodiment described for FIG. 4.

The master cylinder (8) shown in FIG. 6 consists of a cylinder housing (11) and a piston (10) which can be adjusted in the cylinder housing against the pressure of the spring (9). The piston (10) is adjusted by means of a threaded screw (12). A connection point (36) is used to connect the hose / pipe (7). A closable bore (39) is provided for ventilation. By adjusting the piston (10), the lifting device (3) connected via hose / pipe (7) is actuated. The further the piston (10) is immersed in the cylinder housing (11), the more the piston (30) of the lifting device (3) is actuated, thus causing the adjustment plate (1) to tilt more. During the pressing process, the hydraulic fluid is pressed out of the lifting device (3) into the master cylinder (8) and the wedge-shaped gap between the upper end face (29) of the base plate (2) (FIG. 4) and the lower end face (34) of the adjusting plate (1) (Figure 5) closed to ensure a plane-parallel pressing of the compact. When lowering to the next filling, this process is reversed.

Claims (2)

1. A pressing tool (5), having

- a lower press plate (19) which is movable in a vertical direction in a shaping ring (18) and the upper side (6) of which forms with the shaping ring (18) a mould for the material being pressed,

- an adjusting plate (1) which is arranged beneath the lower press plate (19) and on the upper side (4) of which the lower press plate (19) bears with its underside, and which is adjustable in its inclination with respect to the longitudinal axis L of the pressing tool (5),

- a base plate (2) which is arranged beneath the adjusting plate (1) and connected to the adjusting plate (1) by means of screw bolts (16) not fully tightened, and the upper side (29) of which base plate (2) is engaged with the underside (34) of the adjusting plate (1 ),

- an upper press plate (26) cooperating with the lower press plate (19),

- and a hydraulic lifting device (3) to raise the adjusting plate (1), characterised in that

- there is provided for the adjustment of the inclination of the adjusting plate (1) the hydraulic lifting device (3) arranged in the region (17) of the adjusting plate (1) facing the base plate (2) or in the region (33) of the base plate (2) facing the adjusting plate (1), and this is controlled by means of a master cylinder (8) which is connected with it by way of a hose or pipe (7) and arranged outside the pressing tool (5), and in which there is situated a piston (10) adjustable by means of a setting screw (12) against the pressure of a spring (9) to produce the pressure in the hydraulic lifting device (3), the adjusting plate (1) and base plate (2) being connected by means of two screw bolts (16), and the pressing tool (5) forming part of a hydraulic press (20) in which several pressing tools (5) are arranged in tool tables (13; 13a).

2. The use of a pressing tool according to Claim 1 for the preparation of abrasive cutting and rough grinding discs.

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