EP1287976A2 - Hydraulic press for metal powder compression - Google Patents

Abstract

The hydraulic press comprises a die bolster (10), and an upper stamp (16) and a lower stamp (14) which interact with a die bore and are operated by a hydraulic pressing cylinder. A limited dead path is provided in the power path between the pressing cylinder and the upper stamp. A pressure generator is arranged parallel to the power path and by which a pressing force is applied on the upper stamp. Preferred Features: The pressure generator acts on the upper stamp via a force measuring device. The pressure generator is a pneumatic cylinder.

Description

The invention relates to a hydraulic press for pressing metal powder or the like to pellets according to claim 1.

The production of tools, for example cutting inserts for milling or Drilling often happens in the sintering process. Before the sintering, the compacts are molded from metal powder. An eccentric or serves to compress the metal powder a hydraulic press. The invention relates to a hydraulic powder press.

With a hydraulic powder press, the upper and lower punches are made with the help suitable press cylinder actuated. With the help of the press cylinder not only one considerable pressure must be applied, rather a predetermined one must be used Position with the stamps can be approached to the one hand Avoid damage and on the other hand reproducibly desired dimensions to ensure for the compact.

It is known for such powder presses, both the way that the stamp cover, measure as well as the force applied. That way it is possible to ensure a desired compression with given dimensions. It is known for the force measurement between the press cylinder and the Stamp to place a load cell.

As soon as the stamps have reached their specified position and the maximum Press force is reached, the press cylinders are reversed and in particular the upper punch is moved out of the die hole, so that the compact can be ejected using the lower punch.

It is also known that the sudden relief of the pressing pressure is disadvantageous. The pellet shows a certain spring behavior, and there is a risk of that undesired cracks appear in the compact when springing open unfavorable effects during sintering and lead to faulty moldings. It is known to maintain a so-called load when lifting the pressing pressure, for example with the help of a spring. However, a spring has only one predefined one Curve.

It is also conceivable that the lower and upper stamps work together during the discharge to proceed that a certain, gradually decreasing load is generated. With with the existing hydraulic press cylinders it is almost impossible to obtain a coordinated movement between the upper and lower stamp.

The invention has for its object a hydraulic press for pressing from metal powder or the like to create compacts in which a controlled Springing of the compact is made possible.

This object is achieved by the features of patent claim 1.

In the hydraulic press according to the invention is in the force path between the Press cylinder and the upper punch for the return stroke a limited dead path provided in which the upper stamp is not carried. Will the Press cylinder after reaching the maximum pressing force or the specified one Positioned for the upper punch in the opposite direction, he takes the upper stamp a first distance. If no special arrangements would be hit, the pellet would then with the weight of the upper punch be burdened. According to the invention, however, a separate, a variable Pressure generating pressure generator is provided, which is arranged parallel to the force path and a predetermined pressure force during the mentioned dead path the upper stamp. The compressive force can be along a desired curve be driven towards zero and is, for example, zero at the moment when the upper punch is taken away from the press cylinder on the return stroke.

The press according to the invention has the advantage that a controlled load on the The pellet acts so that cracks on the pellet are effectively prevented. The With the help of the invention, the load can be lowered slowly. About that there is also the advantage that, depending on the material and geometry of the compact a predetermined load can be set. Eventually the advantage obtained that with the invention, those acting on the compact after the pressing process Forces can be documented.

According to one embodiment of the invention, the separate pressure generator acts via a Force measuring device on the upper punch. With the help of the force measuring device a regulation can be built up to the course of the load on the upper punch to regulate according to given values. The pressure generator is preferred a double-acting pneumatic cylinder. A double action of the pneumatic cylinder is desired so that it fully or partially the weight on Can compensate for the upper stamp.

So that a control device for the control during the pressing process and the load One embodiment provides for determining when a ballast pressure must be exerted the invention that a suitable force measuring device the force on The upper stamp measures and, if the value falls below a predetermined value, the application the load initiated. Alternatively, the charge can be initiated if a suitable distance measuring device determines that the upper punch is a predetermined one Has reached position. Displacement measuring devices in such presses are in themselves known.

There are various constructive designs possible to apply a Load on a hydraulic press. An embodiment provides for this the invention that the upper press cylinder via a first and a second guide plate acts on the upper punch, between which pressure columns are arranged, the pressure columns being attached to the second guide plate that they are on the second guide plate during the press stroke support and on a return stroke until the second guide plate is carried along Raise limited distance from the second guide plate.

Fig. 1

zeigt äußerst schematisch einen Teil einer erfindungsgemäßen Pulverpresse.

Fig. 2

zeigt ein Kraftwegdiagramm für die auf den Pressling einwirkende Kraft zu Beginn des Rückhubs des Oberstempels der Pulverpresse.

Fig. 3

zeigt schematisch den konstruktiven Aufbau des oberen Bereichs einer erfindungsgemäßen Pulverpresse.

The invention is explained in more detail below with reference to drawings.

Fig. 1

shows extremely schematically a part of a powder press according to the invention.

Fig. 2

shows a force path diagram for the force acting on the compact at the beginning of the return stroke of the upper punch of the powder press.

Fig. 3

shows schematically the structural design of the upper region of a powder press according to the invention.

In Fig. 1, a die plate is shown at 10 with a die hole 12, the a lower stamp 14 and an upper stamp 16 are assigned. At 18 is an upper one indicated hydraulic press cylinder, which actuates a press ram 20. An arrangement 22 is located between the press ram 20 and the upper punch 18 provided with which a load is applied to the upper punch 16 in a targeted manner can, if the press ram 20 after reaching the end position or the maximum Force is switched to return stroke. During the first leg of the return stroke the compact 24 springs up in the die bore 12 and consequently follows the upper punch 16. There is a characteristic curve in the force path diagram according to Fig. 2, which is marked with 26. If no further action is taken are, the characteristic curve 26 continues over the dashed branch 28 to zero force continued. As already stated, such a relief of the compact is disadvantageous, because this leads to undesirable cracks in the compact. In the arrangement 22, in which the force that is exerted on the upper punch 16 is also measured, it is also determined when a minimum force is reached at 30. To this A separate force generator (not shown in FIG. 2) takes over the time the load on the upper punch 26 and brings this as the movement progresses of the upper stamp along the characteristic curve branch 32 to zero. It is understood that the distance shown in Fig. 2 is very short and only a few millimeters is.

3 shows a possible structural design of the press according to FIG. 1. The same parts as in Fig. 1 with the same reference numerals Mistake.

Guide columns 32, 34 are arranged on the die plate 10. You run one Plate assembly 36 with a lower plate 38 and an upper plate 40. Die Plate assembly 36 forms a lower guide plate. The upper stamp 16 is over a component 42, not specified, is connected to the plate 38.

An upper plate 44 is connected via a punch 46 and an intermediate plate 48 to the Tappet not shown connected to the press cylinder. The stamp 46 acts a separate pressure plate 50, which in a recess of the upper guide plate 44th is let in.

Pins 52, 56 are attached to the underside of the guide plate 44 by means of pins 52 connected. At the lower end, the pressure columns 54, 56 are supported on bushings 58, 60 from, which in turn are screwed to the top of the plate 50. Through holes the sockets 58, 60, pins 62, 66 are passed and in blind bores screwed at the lower end of the pressure columns 54, 56. Have pins 62, 66 Flanges 68, 70 which cooperate with the underside of the bushings 58, 60 when the pins 62, 66 are raised.

A pneumatic cylinder 74 is connected to the underside of the upper guide plate 44. A pressure cell 76 is connected to the top of the plate 40. The Pneumatic cylinder 74 can exert pressure on the pressure cell 76 that is on the plate arrangement 36 and thus transferred to the upper punch 16.

It goes without saying that not only two guides 32, 34 and two pressure columns 54, 56 are provided, but at least four each, which are arranged in a square can.

During the normal pressing process, a press cylinder (not shown) is used Pressure is applied to the intermediate plate 48 according to arrow F, which is immediately on affects the upper stamp 16. The upper punch 16 is in the die bore 12 introduced and performs the pressing process in a known manner until a predetermined Position reached or a predetermined force has been applied. Subsequently the press cylinder is acted on in the opposite direction and moved. As soon as the dead center for the press cylinder or the upper punch is reached, or even shortly thereafter, the pneumatic cylinder 74 also exerts a force the load cell 76 on the stamp. A return stroke of the upper However, the press cylinder does not immediately lead to the upper punch 16 being carried along, and that until the flanges 68, 70 against the underside of the bushings 58, 60 attacks. In the drawn state, the distance between the flanges 68, 70 and the bushings 58, 60 about 3 to 4 mm. As soon as the press cylinder starts its return stroke starts, the pellet is relieved, but still one Opposing force is applied by the compact to the upper punch 16 until this force the force of the pneumatic cylinder 74 is reached. With another return stroke the force applied by the pneumatic cylinder to the lower punch is retained or is reduced to zero according to a predetermined characteristic curve, namely to one The way in which an optimal load is achieved on the compact, in which Cracks or the like can be avoided in any case. Has the press cylinder overcome the gap between flanges 68, 70 and bushings 58, 60, the upper punch 16 is now raised, and the pneumatic cylinder 74 can then no longer exert any force on the upper punch 16.

Claims (8)

Hydraulic press for pressing metal powder or the like into compacts, with a die plate, an upper and at least one lower punch, which cooperate with a die hole, each of which can be actuated by a double-acting hydraulic press cylinder, characterized in that in the force path between the press cylinder and the upper ram (16) is provided with a limited dead travel distance for the return stroke, in which there is no entrainment of the upper ram (16) and a separate pressure generator generating a variable pressure is arranged parallel to the force travel, via which a pressure force on the upper ram (16 ) is produced. Hydraulic press according to claim 1, characterized in that the separate pressure generator acts on the upper punch (16) via a force measuring device. Hydraulic press according to claim 1 or 2, characterized in that the pressure generator is a preferably double-acting pneumatic cylinder (42). Hydraulic press according to one of claims 1 to 3, characterized in that a second force measuring device is arranged in the force path and a control device actuates the separate pressure generator when the force measured by the second force measuring device falls below a predetermined value. Hydraulic press according to one of claims 1 to 3, characterized in that a distance measuring device is assigned to the press cylinder or the upper punch and a control device actuates the separate pressure generator when the upper punch (16) has reached a predetermined position. Hydraulic press according to claim 4 or 5, characterized in that at least one force path curve is stored in the control device, along which the force of the separate pressure generator is applied to the upper punch when it starts its return stroke. Hydraulic press according to one of Claims 1 to 6, characterized in that the upper press cylinder acts on the upper punch (16) via a first guide plate (44) and a second guide plate (36), between which pressure columns (54, 56) are arranged, wherein the pressure columns (54, 56) are attached to the second guide plate (36) such that they are supported on the second guide plate (36) during the press stroke and a limited distance from the return stroke until the second guide plate (36) is carried along Lift the second guide plate (36). Hydraulic press according to one of claims 3 to 7, characterized in that a pneumatic cylinder (74) on the underside of the first guide plate (44) and a pressure cell (76) are arranged on the top of the second guide plate (36).

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