DE2624853C3 - Rotary tablet press - Google Patents

Description

The invention relates to a rotary tablet press with a rotary driven by a drive Die table and this associated upper and lower rams, of which the lower one has a Dosing rail run with a height adjustment device to adjust the desired tablet weight corresponding filling volume of the matri / .en and is provided with a control device with which the metering rail is brought into a higher position and the can take effect automatically when the press is switched off.

In the case of rotary tablet presses, the Die plate arranged die bores in the area of the filling station from above with the powdery pressed material filled, the required weight of the individual tablets by changing the Füiivolumcns the matrices can be adjusted. For this purpose, the lower punches in the area the filling station is guided over a height-adjustable metering rail, so that its in the die bores stuck upper ends within the die bores a precisely defined filling space limit underscitig. This space is then filled up to the upper edge with the powdery material to be pressed.

whereby the material to be pressed in the area of the filling shoe runs into the dies due to the effect of gravity, which is supported by the forced movement of the material to be pressed in the filling shoe in the case of high-speed presses,
ι Since the amount of material to be pressed which gets into the die bores depends, among other things, on the speed at which the die is moved under the filling station, the tablet weight is only available during the normal production process

ίο constant when the machine is running more evenly Speed rotates When starting and switching off the machine, however, the changes Circulation speed of the die table, as it needs a certain time when it starts to run To achieve the target speed, and since the die table continues to run for a long time after it has been switched off, until it comes to a standstill. During this start-up and run-down time, which depends on the working speed of the Machine is more or less long, the dies are now moving more slowly under the filling station more abundantly filled. As a result, the tablets produced when the machine was started up and stopped Not only are they too heavy, but the more abundantly filled matrices have when the tablets are pressed a much higher stress on the pressing tools result, which leads to damage to the Tools and the machine itself. This dangerous phenomenon makes itself all the stronger noticeable the higher the operating speed of the

ίο The press is because the start-up and run-down phases are longer and the differences in the filling quantities become greater.

There is a rotary press of the type described in more detail (GB-PS 11 79 350), in which the

J5 Spindle of the higher adjustment device for the metering rail is provided with a disc, which microswitches in extreme positions of the metering rail operated, which switch off the press. When the one assigned to the lowest position of the dosing bar responds

■ w microswitch, this switches the adjustment drive for the Spindle in such a way that the metering rail and with it the lower ram go into their highest position, so when the machine is restarted at a later time, the dies are less filled and overuse

- * "> claiming the stamp is avoided.

In the known machine, the height adjustment device arranged in the area of the filling station is the The metering rail is controlled by the PreDatation, which is located in the

το movement path of the die plate is located behind the filling station. The consequence of this is that the press ram cannot be prevented from being overloaded by the die fillings in the press station or those which have already left the filling station

5 ~> have. In addition, the well-known rotary press the metering rail and the lower ram running over it not every time the machine is switched off, but only adjusted upwards when coasting down, if the shutdown was caused by it,

so that the metering rail reaches its lowest position and the Was therefore actuated the microswitch on the spindle. Will the familiar machine against it turned off after it worked properly and the disc did not touch the microswitch.

^h '> there is no adjustment of the metering rail in the run-out phase.

The object of the invention is to avoid excessive demands of the pressing tools at every start-up and

To prevent the run-out phase of the machine, the set tablet weight during normal Production process is precisely adhered to as before.

This object is achieved with the invention in that the metering rail with one of the height adjustment device independent lifting device is provided by the control device each time it is switched off and is actuated each time the press is switched on and which can be returned to its starting position depending on the start-up speed or time of the press.

This configuration has the advantage that the pressing tools are overloaded when starting up and The machine can no longer run down. It is immaterial here if the when starting up and Leaked tablets do not reach their prescribed weight because they are in the start-up and The tablets produced during the expiry phase have to be excreted anyway.

The additional lifting device also has the advantage that the normal height adjustment of the metering rail is not changed, mk the volume adapted to the required tablet weight Die drilling is set for normal operation of the press. The metering rail has therefore immediately back to their correct position as soon as the die table reaches its normal operating speed.

The lifting device can expediently be a lifting cylinder, which is connected via a feed line from a Pressure pump pressure medium is supplied and connected to a drain line with a solenoid valve which is connected in parallel to the pump and opens the drain line when the pump is switched off will. Such a lifting cylinder works simply and reliably and can be used in rotary presses normally existing hydraulic system can be connected. The solenoid valve ensures a rapid emptying of the lifting cylinder when the machine has reached its target speed.

According to a further feature of the invention, the control device switches the pressure pump on and off Switching off the press, while a timer switches it off again at the end of the start-up time. the The doster rail is adjusted automatically when the press drive is switched on and off.

In order to push the metering rail back into its starting position as quickly as possible, this can be useful be provided with a return spring.

The invention is explained by means of the drawings using an exemplary embodiment. It shows

1 shows a section of a rotary tablet press according to the invention in the area of the filling station in a schematic, vertical section and

F i g. 2 the circuit of the machine drive and the adjustment device for the metering rail in one schematic circuit diagram.

In the drawings, IO denotes the die plate of the rotary tablet press, which is operated by a device shown in FIG. 2 only schematically indicated drive motor 11 is driven to rotate at high speed via a coupling not shown in detail. In the circular die plate IO, die bores 12 are arranged in a circle, to which upper and lower press punches are assigned. Of these press rams are shown in FIG. I only two lower Preßstenipcl dargestell 13 ·, with their upper ends 14 in the Matrizenbohiiingen Vneinragen 12 and their shafts! Are guided in a stroke in a ^r rotating together with the die plate 10 guide disc 16. 5 At their lower end, the rams 13 have base plates 16 with which they slide on their circular path in a fixed cam track 18, so

-> that the ram 13 here during their rotation * are moved up and down in the die bores 12.

Above the die plate 10, a filling shoe 19 is arranged, which with powdery pressing material 20 for

in making the tablets and not one here The storage container shown in more detail is connected. The die plate 10 moves under this Filling shoe over, so that the powdery material to be pressed is limited in the underside of the press rams 13

it can enter and fill the die bores. When passing through the die plate 10 through the filling station in the direction of arrow 21, it is in the Die bores 12 filled pressing material from the lying on the upper side 22 of the die plate 10, wiped off the rear radial wall 23 of the filling shoe 19 in the direction of movement. The iviatric bores then get under the one not shown here as the die table continues to circulate Press station in which the material to be pressed between the lower punches 13 and the not shown here, in the Mwirizenbohrungen from above engaging upper punches are pressed into tablets, which are later ejected from the lower punches upwards, diverted from the die plate and a collection point

so fed.

In the area of FIG. 1 shown filling station is in the curved path 18, in which the foot pieces 17 of the Lower punch 13 slide, a metering rail 24 installed, which is arranged with a on its underside Dosing spindle 25 is mounted adjustable in height in a dosing housing 26. The metering housing 26 is attached to the machine frame in a manner not shown here and consists of a base plate 27 and from a worm housing 28, which in

■ »ο Clearance arranged under the base plate 27 and with dipser is connected by a vertical wall 29.

The screw housing 28 is in two parts and consists of one fixed to the wall 29 of the metering housing connected lid 30 and an approximately U-shaped

• »5 housing bodies31, the one and the cover 30 in the area of the Surfaces 32 and 33 is guided vertically displaceable and an adjusting worm 34, a threaded nut formed worm wheel 35 and the lower end 36 of the metering spindle 25 encloses, on which the as

so threaded nut formed loose worm wheel 35 is screwed on.

The metering spindle 25 slides axially with its upper end in a bore 37 of the base plate 27 üWcngti leads. The lower end 36 of the metering spindle 25

«Reaches through a corresponding recess 38 in the Lid 30 of the screw housing 28 and isi with a pin-like extension 39 in a blind hole 40 in the Screw housing 28 is axially displaceable.

As can be seen from FIG. 1, this is supported as

M) Worm gear trained on a nut at the bottom of the U-shaped screw joint body S. 31 arranged support ring41.

The body 31 of the screw housing 28 has on its underside a piston-like extension 42, which in

i "a hydraulic cylinder 43 axially displaceable and against its cylindrical * inner wall with a Piston ring 44 or other suitable seal is sealed. The hydraulic cylinder 43 isi with a

Haltcarm 45 provided with a screw 46 on the Dosing housing 26 is attached.

On the end wall 47 of the hydraulic cylinder 43 are an inlet line 48 and a discharge line 49 for Hydraulic fluid connected. The feed line 48 leads to one that is only schematically indicated here Pressure pump 50. which sucks hydraulic fluid 51 from a reservoir 52 'and through the Zulaufleitiing 48 pushes into the cylinder 43. In the Drain line 49, which also leads into the storage container 52 ', is a pressure relief valve 53 and a solenoid valve 52 built in, whose function is based on the in Cig. 2 illustrated circuit diagrams is described in more detail below.

The one consisting of worm 34 and worm wheel 35 Worm drive is used in the present embodiment example only to the Dosierschienc in their Adjust the height exactly for normal operation, at which the Matrizenvjheibe 10 and the Preßsiempcl 13 circulate at their normal working speed. By adjusting the height of the metering rail 24 also the distance between the upper face of the liners punch set exactly from the top 22 of the die 10 and thereby that Matrizeiivolumen determines which of the required PreUgutmenpe for producing a tablet with a certain weight is assigned. When adjusting the height of the Doverschienc 24 provides a return spring 54. which is on the one hand against the underside of the base plate 27 and on the other hand against a spring plate 55 attached to the metering spindle 25, for the fact that the as Worm wheel 35 formed by a threaded nut always rests on the support ring 41.

The lifting device 5h consisting of the piston-like extension 42 and the hydraulic cylinder 43 works independently of the screw operation 34 and 35 and only serves to temporarily adjust the metering valve 24 upwards when the machine is started and stopped. For this purpose, hydraulic fluid is injected into the hydraulic cylinder 43 under pressure, which pushes the piston-like extension 42 upwards in a QucisciiMiu U-mr in a scrineckerigciuiiiM · body 31 opposite the screw housing cover 30. Here, the worm wheel 35 resting on the support ring 41 is carried along with the metering spindle 25 screwed into it until the worm wheel 35 rests on the underside of the worm housing cover 30. The metering rail 24 and the lower punch 13 supported on it are raised by the dimension d , which corresponds to the distance between the worm wheel 35 from the underside of the worm housing cover 30 and which is sufficient to reduce the filling volume of the die bores 12 when the machine is started up and stopped that even with the much more intensive filling of the dies in the subsequent press station when the machine is running slowly, there is no overloading of the ram when compressing the amount of material to be pressed in the die bores.

In the circuit diagram shown in FIG. 2 for the drive of the rotary tablet press and for the actuation of the lifting device 56, the drive motor, the pressure pump indicated in FIG. 1 and the solenoid valve shown there are provided with the same reference numerals. The work flow circuit ·; is marked with A and the control circuit is marked with S.

In addition to the drive motor 11, the pressure pump 50 and the solenoid valve 52, a coupling magnet 57 for the coupling between the drive motor 11 and the die plate 10 is also included in the working circuit A.

The control circuit S contains a normal Fm and off switch 58 for the motor, separate pushbutton switches 59.) and 59fr for disconnecting or switching on the clutch 57 as well as a motor contactor 58 assigned to the motorized shutter 58 and a clutch shutter 59 'assigned to the clutch switches 59. In addition, a timing relay 60 is also provided, the mode of operation of which will be described in more detail below.

The finish works as follows:

When the motor switch 58 is closed, the motor sound contactor 58 'is energized, which closes the contacts 61 and 62 in the working circuit A. As a result, the circuit for the drive motor II and the Sir.unkrois for the pressure pump 50 and for the solenoid valve 52 connected in parallel to this is closed. As a result, the drive motor II and the pressure pump 50 are set in motion and the solenoid valve 52 in the exhaust line 49 is closed. The pressure pump 50 conveys hydraulic fluid through the supply line 48 into the hydraulic cylinder 43, which raises the piston 42 and with it the worm wheel 35, which is designed as a threaded nut, and the metering rail 24 connected to it via the metering spindle 2 ^r > by the amount </ so that move the ram 13 in the St.iirizenbohrungen 12 upwards

By actuating the clutch switch 59 / w; r; l, the clutch contactor 59 'is excited, which generates the contact 63 in the working circuit A and at the same time. NclbMhaltekoniakt 64 in the control circuit S closes. In this way, the coupling magnet establishes the coupling between the die plate and the drive motor. so that the Mairiz disc starts up and begins to turn Gk'ich / in turn the timing relay 60 is energized. which, after the delay time has elapsed, opens the contact 65 assigned to it in the working circuit A and thereby switches off the pressure pump 50 and de-energizes the magnet of the solenoid valve 52

ι. ι ο. ι. j._ u: ■ e-% --ti γλ.-

The delay time of the timing relay 60 corresponds to the running time of the machine, i.e. H. that time. which the die table needs to move from a standstill You can reach normal operating speed.

If the pressure pump 50 is switched off and the Magneivc'Uil 52 opens, this can be done in the hydraulic cylinder 43 located thickening medium flow back through the drainage line 49 into the storage container 52 ', whereby the piston 42 partly under the force of gravity of the screw housing connected to it, partly under the restoring force the spring 54 moves downwards and assumes its starting position.

If the machine is to be switched off, the push button switch 59a is actuated. The coupling contactor 59 'falls then off and opens the contacts 63 and 64 again, so that the coupling between the die plate 10 and Drive motor 11 is disengaged. At the same time, the Power supply to the Zettrelais 60 interrupted, which thereby resumes its rest position and the Contact 65 closes, whereby pressure pump 50 and solenoid valve 52 are switched on again. Through this is again conveyed pressure medium from the pressure pump 50 in the hydraulic cylinder 43 and the The metering rail with the lower rams is raised until it is designed as a threaded nut Worm wheel 35 on the underside of the worm

house ceiling 30 is applied. This state remains until the drive motor is switched off and the motor sound contactor 58 'opens the contacts 61 and 62 again, whereby the drive motor II and pressure pump 50 come to a standstill and the solenoid valve 52 is opened.

Ma "recognizes that the solenoid valve 52 is required is to quickly reduce the pressure built up by the pressure pump 50 after switching off, so that the Dosing rail 24 with the lower rams 13 from the return spring 54 quickly back to their starting days can be traced back. This is particularly important when starting the machine in order to reduce the amount of waste of tablets with incorrect weight as low as possible keep.

The during the start-up and run-out phase of the

Machine-produced tablets with incorrect weight are separated at the ejection point of the machine, what for example in a known manner with a switch controlled by a timer in the tablet outlet can happen. The timing relay 60, which is also used by the Controls the return of the metering rail 24 to its normal position.

The invention is not restricted to the exemplary embodiment. For example, it is also possible to use the Adjustment of the metering rail during the start-up and run-down phase of the machine depending on the To control the speed of the die table. Instead of the hydraulic lifting device, a mechanical or electromagnetic lifting device can be used.

9 Rlntt 130 228/195

Claims (4)

Patent claims: 1. Rotary tablet press with a die plate rotatably driven by a drive and associated upper and lower plungers, the lower of which run over a metering rail which is provided with a height adjustment device for setting the filling volume of the dies corresponding to the desired tablet weight and with a control device which brings the metering rail into a higher position and which can take effect automatically when the press is switched off, characterized in that the metering rail (24) is provided with a lifting device (56) independent of the height adjustment device (34, 35, 36). which is actuated by the control device (S, A) each time the press is switched off and switched on and which can be returned to its starting position as a function of the start-up delay or time of the press. 2. Press according to claim 1, characterized in that the lifting device (56) is a lifting cylinder (43) is to which pressure medium (51) is fed from a pressure pump (50) via a feed line (48) and which is connected to a drain line (49) with a solenoid valve (52) which is the Pump (50) is connected in parallel and the drain line (49) opens when the pump (50) is switched off will 3. Press according to claim 1 or 2, characterized in that the control device (S, A) switches the pressure pump (50) on when the press is switched on and off and it switches off again at the end of the start-up time iahet. 4. Press according to one of claims 1 to 3, characterized in that the metering rail (24) is provided with a return spring (54) which endeavors to return the rail (24) to its starting position to push back.