DE1299529B - Rotary tablet machine - Google Patents

Description

The invention relates to a rotary tablet machine in one Rotary head counter-rotating upper and lower punches rotating with the die plate, which have a shoulder between the punch shaft and the punch shaft, as well as with a Extraction line on the underside of the die table for use during manufacture Powder dust falling off the tablets.

The use of rotary tablet machines is widespread. Machines have been developed that allow the manufacture of tablets with precisely set size and shape at high speeds. Mostly contains the powder fed into the machines, from which the tablets are pressed, is fine Components that have the tendency to pass through small gaps between the dies and undermining to flow. Experience has shown that this penetration of powder can be achieved not even because of the very precise fit of the tabletting punches in their guides avoid. Penetration of tablet powder between the lower punches and theirs Guided tours in which the lower punches are positioned in the course of the manufacturing process. and moving away, often leads to the formation of a smear layer, which is a flawless Functioning of the rotary tablet machine into question. The fine powder piles up in the lubricant until the lower punches jam. This clamping of the lower punch can assume such an extent that the return of the lower dies into their lowered position finds such resistance that the organs provided for this purpose at the lower punches become damaged and unusable. The clamping of the stamp in their guides is reached through the in modern rotary tablet machines high speeds in tablet production are significantly increased. Even though You can get the jamming in the with a careful selection of the lubricant tried to avoid high-speed tableting machines, has not yet succeeded in overcoming these difficulties. It also makes the choice a suitable lubricant because of difficulties in making tablets The powder used can act on the lubricant and cause changes in it can. The result is that uniform lubricants in rotary dispensing machines, that produce different types of tablets cannot be used. Attempts have therefore already been made to develop tablet machines with suction nozzles, to suck off the powder that escapes during tableting. Obviously can however, this known suction nozzle does not prevent the stamp from jamming because the suction nozzles are arigebrdnet behind the tableting station, where the powder has already entered the guide of the lower die and its there has had a harmful effect.

The invention is based on the object of providing a rotary tablet machine in such a way that the superfluous powder that arises during the tableting is flawless and is removed so early that tablet powder penetrates into the guides the lower punch avoided with certainty and thereby jamming of the lower punch is turned off.

In the case of a rotary tablet machine, this task is described at the beginning described type solved in that laterally in the punch guide of each Lower punch a mouth of a exposed only when the lower punch is lowered a compressed gas, such as compressed air, leading channel system formed in the rotary head and the suction line is provided opposite this mouth.

The channel system for the pressurized gas is preferably in the rotary head in an annular channel on the underside of the rotary head with perpendicular outgoing, the individual punch guides assigned holes and branches, which are from the Boreholes open out into the punch guides. The gas pressure can of course be controllable.

It is known in principle to supply lubricant to the lower punches. In the context of the invention, however, the possibility is now created, the lubricant in connection with the device for removing the harmful powder. This is expediently done in that a branch of the compressed gas line over the mirror a closed oil container is performed, the oil line an access to Has ring channel of the channel system in the rotary head. In addition, the canal system In the rotating head leading pressure gas line is a known oil atomizer exhibit.

The advantages achieved by the invention are in particular therein to see that the resulting powder in the tableting quickly in a simple manner and is properly removed so that jamming and eventual damage to the Lower punch due to the penetration of tablet powder into the guides - the lower punch no longer occurs. The high-speed rotary tablet machines can now be reliably prevented from blocking during the manufacture of the tablets Accruing superfluous powder can be secured. It is also of particular advantage that the facilities used and necessary for this purpose with a lubrication of the Lower punch of the tablet machine can be combined, which is a special one expedient configuration of the lubrication devices, which have not been very effective up to now on tablet machines means.

In the following the invention is based on an exemplary embodiment illustrative drawing is explained in more detail. It shows F i g. 1 a vertical Partial section through the rotary tablet machine, FIG. 2 shows an enlarged detail of the partial section according to FIG. 1, Fig. 3 shows a partial section as in FIG. 2 in Area of pressure medium and lubricant supply, F i g. 4 shows a section along the Line 4-4 of FIG. 3 and F i g. 5 is a section along line 5-5 of FIG. 3.

The machine 10 has a rigid frame 12 in which a rotary head 14 is rotatably mounted by means of a spindle 16. Upper punches 18 are guided within the rotary head 14 and axially aligned with respect to dies 20. The dies 20 are located within the rotary head 14 and are in one plane with the surface of a die plate 22. Lower punches 24 are located within punch guides in the rotary head 14. The lower punches 24 are vertically aligned with the dies 20 and the upper punches 18. Die Rotary movement of the rotary head 14 is generated by the engagement of a worm 28 in a worm wheel 30. The worm 28 is connected to a drive 32. The lower punches 24 are guided in a lower guide track 34, the side 36 of the punch head 38 of each lower punch 24 serving for the downward movement engaging with the lower guide track 34 during the moment of tablet production in which a lower punch 24 is in the lowered position . The lowered position of a lower punch 24 is on the left-hand side of FIG. 1 shown. During the pressing process in the course of tablet production, the underside of the punch head 38 of each lower punch 24 cooperates with a lower roller 40, which is shown on the right in FIG. 1 is illustrated.

The tablet machine 10 has an annular channel 42 which is arranged within the lower part of the rotary head 14. The annular channel 42 is connected to a plurality of vertical bores 44, so that the arrangement can be used for different working methods. Each vertical bore 44 is provided with a lateral branch 46 which opens into the guide 26 of the lower punch 24. As one can see from FIG. 2 particularly clearly recognizes, the mouth of the lateral branch 46 in the wall of the lower punch guide 26 is arranged at such a height that it comes to lie directly over a sharp-edged shoulder 48 of the lower punch 24 when the lower punch 24 is in its lowered position. A support ring 50 is arranged on the frame 12 below the annular channel 42. This ring 50 forms an abutment on which ring seals 52 can be clamped by means of a fastening ring 54. The seals 52 can be made of any sealing material, with self-lubricating polymers such. B. tetrafluoroethylene or synthetic rubber are advantageous. The support ring 50 is provided with a bore 56 for oil supply, which is connected to an oil line 58 entering the ring 50 from below and an oil head 60 which extends within the fastening ring 54 from its underside upwards to a point between its top and bottom lies. The oil head 60 is connected to oil bores 62 running laterally through the ring 54, which open into the annular channel 42 above the seals 52 (see FIG. 4). The support ring 50 is also provided with a bore 64 for air supply, which is connected to an air line 66 entering the ring 50 from its underside and an air head 68 extending within the ring 54 over its entire height. The air head 68 opens into the annular channel 42 above the seals 52 (see FIG. 5). The air line 66 has a T-piece 70 so that a branch from the air line 66 is possible, which runs as a branch 66 a to the upper part of an oil container 72. A pressure regulator 76 with an associated manometer 78 can be connected to the air line 66. The air line 66 is preferably provided with a shut-off valve 80. If the punch guide 26 needs to be lubricated, a device 100 for generating a lubricant mist in the air line 66 downstream of the pressure regulator 76 can be used. The attachment of the ring 54 to the support ring 50 can be made as desired, for. B. by means of a screw bolt 82 which, starting from the ring 54, is screwed into a threaded socket within the ring 50.

In Fig. 2, an annular suction seal body 84 is provided in an undercut groove 86 below the die plate 22, which is spatially separated from the wall of the lower punch guide 26 and is arranged next to the mouth of the branch 46 . The annular suction seal body 84 has seals 88 which are fastened at the inner end by means of a clamping element 90. These seals 88 can consist of the same material as the seals 52. How to get from Fig. 1 recognizes, the annular suction seal body 84 has at least one suction opening 92, which represents a connection between the inner part of the annular suction seal body 84 and a suction channel 94 located in the area of the lower punch guide and a vacuum line 96. A suction pump 98, which generates a negative pressure in the suction channel 94, is connected to the vacuum line 96.

The operation of the tablet machine 10 according to the invention is as follows: When the tablet machine is at a standstill, the shut-off valve 80, for. B. by means of a cooperating with the spindle 16 (not shown) lock. This prevents air from escaping through the air head 68 into the fastening ring 54. The oil level in the oil container 72 is aligned with the oil level above the seals 52 so that the air pressure within the oil container 72 corresponds to that in the annular channel 42. The air or the oil atomized in the air jet in the case of lubrication by the atomizing device 100 enters the annular channel 42 and then flows upwards through the vertical bores 44 and then through the branches 46. Dry air or air containing lubricant mist becomes the shoulder of each lower punch 24 supplied when the punch in question is in its lowered position, as shown on the left in FIG. 1 is shown. The delivery of oil to the shoulder serves to lubricate the lower punch 24 with respect to its guide 26. The delivery of air from the branch 46 over the shoulder of the lower punch 24 when the lower punch 24 is in its lowered position creates an air cushion against the falling of fine powder around the shaft of the lower punch 24 into the guide 26. When the lower punch is in its raised position, in which it causes the compression of the powder to be shaped into tablets in the die 20, this compression being achieved by the interaction of the underside of the punch head 38 of the lower punch 24 with the lower one Roll 40 takes place, the shaft of the lower punch blocks the mouth of the branch 46. In this way a pulsating movement of the oil and the air to the space above the shoulder of each lower punch 24 is achieved. The negative pressure in the suction channel 94 reduces the amount of dust suspended in the air. The negative pressure in the channel 94 is not great enough to impair the lubrication of the lower punches. However, it is sufficiently large to remove the powder that is blown away from the shoulder of the lower punch 24 by means of the air emerging from the branch 46. This powder can be removed by filters (not shown) within the suction line 96 upstream of the suction pump 98. The air blast from the branch 46 prevents powder from penetrating into the gaps between the lower punches and their guides 26 and thus prevents the jamming that has hitherto occurred as a result of this penetration. Furthermore, the delivery of oil to the lower punches 24 from the branches 46 enables the lower punches 24 to be lubricated very effectively.

Claims (4)

Claims: 1. Rotary tablet machine with a rotary head counter-rotating upper and lower punches rotating with the die plate, which have a shoulder between the punch and the punch shaft, as well as with one Extraction line on the underside of the die table for use during manufacture of the tablets falling powder dust, characterized in that laterally in the One punch guide (26) of each lower punch (24) only when the lower punch is lowered exposed mouth of a pressurized gas, such as compressed air, leading in the rotary head (14) formed channel system (42, 44, 46) and this mouth opposite the suction line (94, 92, 96) is provided. 2. Machine according to claim 1, characterized in that that the channel system for the compressed gas in the rotary head from an annular channel (42) on the Underside of the rotary head (14) with perpendicular outgoing from the annular channel, the bores (44) and branches (46) assigned to individual punch guides (26), which, starting from the bores, open into the punch guides (26). 3. Machine according to claims 1 and 2 with one of the lower punches a lubricant feeding device, characterized in that a branch (66 a) of the compressed gas feed line (66) is guided over the level of a closed oil container (72), the Oil line (58) an access (56, 62) to the ring channel (42) of the channel system in the rotary head owns. 4. Machine according to claims 1 to 3, characterized in that the The compressed gas line (66) leading to the channel system in the rotary head with a known one Oil atomizer device (100) is provided.