DE1577221C3 - Press for pressing powdery material - Google Patents

Description

3 4

drive motor and the eccentric device for depending on the respective filling setting of the particular punch and guide device for downward loading tool. The spacer columns 25 can be adjusted vertically in such a way that they can be moved towards the punch plates during ejection. There is an upper punch plate 13, a middle punch plate 14 seated in the middle punch plate 14 and a lower punch 5 ring punch flush with the die in the upper plate 15. It is in fact in the execution stamp plate 13 when the space A is closed, for example a press with three stamp plates. In a similar way are the Abben; however, it is also possible to adjust a press with any standing columns 26 in the vertical direction together with the desired number of punch plates in such a way that one in the lower punch space. A reciprocating male mold 16, FIG. 5, plate 15 seated ring punch is flush with the operated in the usual way. There is a fixed upper punch plate 13 located die, punch 17 is provided, and when the gap B is closed, the object to be produced should be hollow , a punch core 18 can move the punch plates into the filling position and provide for it. The punch core 18 is mounted axially in an outer ring punch 61 that is larger than the stationary punch 17, and it can provide 15 material length of pulverized material as a pressure medium, for example hydraulic, with an intermediate ring punch 62, the outer ring mounted on the middle punch plate 14 must be actuated. The middle punch plate 14 and the lower ring punch 61 move less upward Ring seated in the lower stamp plate, not shown see Heavy guide supports are loaded with stamps 62, with which the interspace B can be smaller, and they can be supported by pneumatic or hydraulic pressure than the interspace ^ around which the lower hydraulic pressure. The uppermost star stamping plate 15 seated ring stamp 62 first pel plate 13 is freely movable on other guide to cause ejection. In this way, carriers are stored. The middle stamp plate 14 and, with a more precise filling setting of the stamp plates, the lower stamp plate 15 are always provided with stop devices when ejecting, which are strong enough to bear the load of pressure on the shape of the dough to be produced, and it are free.

transfer devices for these stop devices In the F i g. 4 to 8 there is a schematic series of manufacturing steps for a molded piece 50 that follow at the desired point in time release. Stop columns 23 are shown for the middle 30, which has an undercut section, Stamp plate 14 and stop pillars 24 for the and d. H. a recess 51 has. In the upper tere stamp plate 15 is provided. The stop punch plate 13 sits a die 60. In the middle 23 are actuated by spacer columns 25. Ren stamp plate 14 sits the outer ring stamp When the spacer columns 25 are against the stop columns 61, the next one sits in the lower stamp plate 15 23 abut, these are raised by a corresponding 35 inner ring punch 62, the upper edge of which is higher Device released, whereby the middle stem is located; and a deepest, fixed one pel plate 14 for the ejection process downwards ring punch 63 is mounted on the base of the machine, can be pressed. When spacer columns 26 are attached to a dot-dash line X-X indicates the level of the If stop pillars 24 abut, these free-standing ring punches 63 are attached. ben, so that in a similar manner the lower punch 40 The pulverized material 64 (Fig. 4) that is pressed plate 15 is to be down for the ejection process is inserted into the die and all can be pressed. Compare the ring stamps and stamping plates at the beginning in said USA patent. The spacer columns 25 filling position. The reciprocating patrix 16 are in the described embodiment in leads their downward briquetting stroke essentially arranged as that in the known 45 through (Fig. 5); the different ring stamps with th arrangement is the case, on the other hand the ab- their stamp plates move freely downwards, Stand columns 26 are known to be on the middle whereby the briquetted molding 50 its endgül stamp plate 14 stored so that this released term takes shape.

had to be before the lower die plate 15 The whole load of the press is released by the different could be. The spacer pillars 26 50 which include stop pillars. At the end of

are now also on the upper briquetting stroke according to the invention, the stamp plates are still

Stamp plate 13 stored and lead through holes further pushed down to an ejection of the

in the middle stamp plate 14 through. Form piece 50 to achieve. Because the fitting 50

The spacer columns 25 are together in the lower recess 51, it is desirable to adjust only in the right direction so that an intermediate 55 of the largest diameter of the shaped piece can be changed raurnyi; eject the spacer columns that the underside of the recess 51 26 are also adjustable together, so that one is led out of the die 60. The upper gap B is adjustable. If the intermediate punch plate 13 (FIG. 6), in which the die 60 is spatially smaller than the gap ^, it is seated and was pressed down until its lower punch plate 15 is in front of the middle punch 60 upper Page 60 α flush with the sole 51 α of the Ausplatte 14 released, which was previously not possible. taking 51 completes. In this operating position, however, the various spacer columns operate the associated spacer columns so that the gap A is smaller than there would be in the lower die plate 15, so that the shape of the gap, the press is fitted down to the underside of the outside cutted way work, and the middle punch plate 65 is ejected knife, to which operating point 14 is exposed in front of the lower punch plate 15, the top of the die 60, the outer ben. Ring punch 61 and the inner ring punch 62

The setting of the spacer columns 25 and 26 (FIG. 7) are flush with one another. In this

the stop column is operating point visible to the middle punch plate 14 and the die 60 and the ring temple 61 and 62 move together downward such that a boss portion 50 b of the molding is ejected 50 (F i g. 8). As a result of this sequence during ejection, in which the lower die plate 15 is released in front of the middle die plate 14, all parts of the molded piece 50 are completely supported until they are ejected. The punch core 18 (Fig. 8) is finally pulled down so that the molding 50 can be removed from the press. In summary, it is as follows: The spacer columns, which release the lower stop devices for the various stamp plates, all sit on the upper stamp plate; while the spacer columns for the next lower die plate (in a press with three die plates this is the middle die plate) only extend between the upper die plate and the next lower die plate, the spacer columns for the die plates below the second die plate lead through openings in this second one Stamp plate and through openings in all other stamp plates, which are between the top stamp plate and that stamp plate whose stop devices are intended to release these spacer columns. In addition, all are spacer columns

ίο adjustable in the vertical direction so that in the in the full ejection position, the tops of all lower ring punches are flush with the main die.

The embodiment is applicable to a press that has any desired number of die plates and has corresponding stamps; by adjusting the filling setting of the various The order of the stamp can be changed when it is ejected.

1 sheet of drawings

Claims (1)

1 2 patent claim: presses while simultaneously pressing the lower stamp plates with the help of their associated stop device Press for pressing powdery gene to be held. This will make the top, Material for molded parts with sections under- 5 d. H. the largest diameter of the fitting of different diameters and at least one of the uppermost dies "ejected". When the top undercut of the molded part using the surface of the uppermost die essentially flush one of several telescopically intertwined with the uppermost surface of the next lower one of the assembled ring punches formed die, die is located, the stop devices for with several punch plates, each one io released the next lower die in such a way that wear the ring punch and under the on the top and the next lower die powder-shaped Material exerted pressure were pressed down together. In the same freely moveable manner in the frame of the press, all lower dies are handled like this for each stamp plate, with the exception of the long one, until the shaped piece is completely ejected; uppermost punch plate, adjustable stop front 15 during the ejection of each diameter of the directions are provided, the downstroke of the fitting is thereby in each case the corresponding of the punch plate in question during pressing, the diameter of the upper surface of the next never limit and supported for ejecting the molded part every other die. because by one of an overlying With this known press one is at the form Adjustable spacing device carried by the stamp plate for the molded piece to be produced be unlocked, thereby, and it is not easy, for example indicates that all spacers are possible to have a fitting with an undercut lines (25, 26) to produce on the uppermost stamp plate section. (13) are attached and that the spacing device will be shaped with such a press (26) for star-shaped pieces with an undercut section below (15) through the intervening len, for example, a bridging for the Stamp plates (14) are passed freely. lower die adapter required, which is at the intermediate is mounted through the outer die adapter attached to the lower Stem-30 pel plate is mounted. Such a special one Adapter training is both very expensive and expensive not very reliable. The invention is based on the object of designing the press mentioned at the outset so that with it The invention relates to a press for pressing workpieces with undercuts in the simplest possible way powdery material can be made into molded parts with fertilization or depressions different diameters and min. At least one undercut of the molded part according to the invention, this object is thereby used one of several telescopically redeeming that all spacer devices on the top other attached ring stamps formed die, 40 stamp plate are attached and that the spacing with several stamp plates, each one of the devices for stamp plate ring stamp located below wear and under the on the powder-fed through the intermediate stamp plates Mige material exerted pressure are passed through freely movable. are stored in the frame of the press, whereby for each Punch plate, with the exception of the uppermost punch press with several punch plates, flat, adjustable stop devices provided that the sequence of ejection in the desired manner hen that the downward stroke of the relevant star can be modified, so that for example at Limiting pel plate during pressing and for ejecting a press that open a number of punch plates of the molded part by one of one, the top plate first downwards during overlying stamp plate carried adjustable 50 of the ejection can be moved and then the Spacer can be unlocked. lower plate next and then the intermediate Such presses are already known, for example from the horizontal die plate, so that the sequence of the US Pat. In this way, crushed material can be produced in the simplest possible way, 55 ring-shaped depressions can be produced,
which has steps of different diameters. The invention is based on the drawing When ejecting the pressed fitting from the explained for play. It shows
Press the section with the largest F i g first. 1 is a front view of a press, Diameter ejected in such a way that the remaining F i g. FIG. 2 is a partial section along line 2-2 of FIG Sections of the fitting are completely removed for this time. are supported until they are ejected. The eval- F i g. 3 shows a partial section on an enlarged scale fen is not to be taken literally, but means along the line 3-3 of Fig. 2,.
freeing from the form here. This is achieved in this way. 4 to 8 are schematic views, the Sufficient: During the briquetting stroke, the sequence of briquetting and ejection move with all punch plates in the press due to the friction between the material to be pressed and the one undercut section.
Walls of the die cavity freely downwards. The press according to FIG. 1 has a frame 10 After the patrix has carried out its pressing stroke and an upper housing 11, in which the