Patent Grant
11850817
This invention relates to rotary tablet presses and, more particularly to a removeable turret module.
Oral dosage medication is typically manufactured by directly compressing granulation on a rotary tablet press. Tooling is used on the tablet press to identify and produce specific products. The tooling consists of an upper punch, lower punch, and a die. To form a tablet, granulated powder material must be fed into a cavity formed by two punches and a die. The punches are pressed together with sufficient force to fuse the powder into a tablet.
All granulations are abrasive and due to the force at compaction, tools wear out and must be replaced. Maintaining quality tooling is essential to product consistency. Cleaning is also frequently required.
In a rotary tablet press, a turret is rotatable about a vertical axis and carries a plurality of dies. Each die has associated top and bottom punches driven by top and bottom cams to compress the granulation into a tablet. For cleaning between batches or changeover for a different tablet, the turret with punches and cams is removable as a unit from the tablet press.
Such rotary tablet presses are provided by various manufacturers and described, for example, in U.S. Pat. Nos. 4,988,275 and 6,676,863 and EP1050399.
Prior art removable turret press designs incorporate a single press frame for structural support of the turret and pressure roll assemblies. These designs prevent the removal of the turret along with the machine base on which it is supported. These designs generally require an operator to disconnect, move and/or remove several components including removing a heavy turret and loading it onto an ancillary cart in order to change the press to a different tooling size or configuration such as bi-layer or tri-layer. These designs also constrain the tablet press to only utilize turrets having the same diameter and height dimensions. Prior art designs require cleaning and great care in transferring the equipment to a cleaning room without risk of cross contamination. Prior art presses with removable or detachable turrets incorporate mechanisms that attach to and drive the turret from beneath. This not only requires an ancillary cart but also the requirement to disconnect, move and/or remove press components and lift and load the turret.
The present invention is directed to improvements in design of a removable turret.
An object of the present invention is to provide a tablet press that is more configurable and flexible for tablet manufacturers, requires less time for changeover between batches, and contains dust generated during the tableting operation to minimize exposure to the operator. This is accomplished by housing the compression roll assemblies and turret assembly in two separate and distinct support structures that can be connected to one another and operate in unison as a tablet press.
In view of this objective, the press is divided into two primary assemblies herein referred to as the base assembly and detachable turret module. The base assembly incorporates motorized pressure roll assemblies that may move both linearly and axially. Having linear movement, the pressure rolls are automatically moved into a position, if necessary, to allow the turret module to be detached and removed from the base assembly without interference. The movement, if necessary, allows the compression assemblies housed in the base assembly to adjust tablet thickness during operation and to be configured for various turret modules containing turrets with different physical dimensions during setup.
In accordance with one aspect of the invention, a rotary tablet press comprises a base assembly comprising a press housing and a compression assembly in the press housing including pressure roll assemblies. A detachable module is removably mountable to the base assembly comprising a module base supporting a turret housing. A turret assembly is rotatably mounted in the turret housing about a vertical axis. The turret assembly comprises a plurality of die stations. The detachable module is selectively positioned at the base assembly so that the pressure roll assemblies engage the turret assembly to compress a granulation into a tablet at the die stations. A turret drive assembly comprises a turret motor and drive shaft. The drive shaft is aligned with the vertical axis and engaging the turret assembly to rotate the turret assembly.
In accordance with another aspect of the invention, a rotary tablet press comprises a press housing having bottom and top ends, the bottom for resting on a support surface. A compression assembly in the press housing and including pressure roll assemblies. A drive housing extends outwardly from the top end of the press housing. A drive assembly in the drive housing comprises a turret motor and drive shaft extending downward from the turret motor. A turret assembly comprises a plurality of die stations. The turret assembly is mounted to the turret housing about a vertical axis so that the pressure roll assemblies engage the turret assembly to compress a granulation into a tablet at the die stations. The drive shaft is aligned with the vertical axis and engages the turret assembly to rotate the turret assembly.
Further features will be readily apparent from the specification and from the drawings.
The present invention relates to a rotary tablet press comprising a base assembly or machine frame and detachable module. The base assembly comprises motorized pressure roll assemblies and optionally a turret drive assembly. The detachable module comprises a module base, turret base, turret, cam body, cams, feeder, tablet discharge chute, hopper, upper enclosure, and guard doors. The detachable module could also incorporate pressure roll assemblies for bilayer or trilayer applications. The turret comprises chambers arranged circumferentially to hold upper punches, lower punches, and dies. As the turret rotates, punches follow a cam track and reciprocate into and out of dies that receive granulation as they are rotated under the feeder. A tablet is formed when the punches contact the pressure rolls causing compaction of the granulation in the die.
The disclosed tablet press is more configurable and flexible for tablet manufacturers, requires less time for changeover between batches, and contains dust generated during the tableting operation to minimize exposure to the operator. This is accomplished by housing the compression roll assemblies and turret assembly in two separate and distinct support structures that can be connected to one another and operate in unison as a tablet press.
The press is divided into two primary assemblies herein referred to as the base assembly and detachable turret module. The base assembly incorporates motorized pressure roll assemblies that move both linearly and axially. Having linear movement, the pressure rolls are automatically moved into a position, if necessary, to allow the turret module to be detached and removed from the press frame without interference. The axial movement allows the compression assemblies housed in the base assembly to adjust tablet thickness during operation and to be configured for various turret modules containing turrets with different physical dimensions.
The press frame may incorporate the turret drive mechanisms that enable the drive shaft to be mounted above the turret. This frees up space in the module below the turret for incorporating vacuum, cleaning features, or used for other requirements. Additionally, the module cost and weight are reduced by not having to incorporate the drive motor and assembly in the module.
Isolating and housing the control components in the frame avoids the requirement for calibration of pressure roll positions, load cells or strain gages, and turret speed when a module is detached or attached.
A precision pneumatic, hydraulic, magnetic, physical connection, or other method is incorporated to secure the turret module to the base assembly. Alignment and mounting are designed to ensure the module can be precisely detached and attached to the frame without impacting the machine performance.
The detachable module comprising of a module base, turret base, turret, cam body, cams, feeder, tablet discharge chute, hopper, upper enclosure, and guard doors eliminates the requirement for an external cart and significantly reduces the changeover time. An operator simply disconnects the powder inlet connection, presses a detach module button in the tablet press HMI software, disconnects cable connector(s), and uses a pallet truck, automated guided vehicle, or other appropriate material handling mechanism to remove the module in a matter of minutes.
The illustrated and described rotary press machine improves upon the prior art tablet presses by isolating the pressure roll assemblies in a separate and distinct base assembly from a detachable turret module comprising of a turret and the base on which it is supported to provide a faster, more configurable, and safer solution for the customer and eliminating the need to lift and remove a heavy turret unit and load it onto an ancillary cart. Sealing the module minimizes the operator's exposure to granulation dust particles and enables the module to be transferred to a cleaning room with less risk of cross contamination. Prior art presses incorporate mechanisms that attach to and drive the turret from beneath. Having a detachable module that incorporates the turret supporting base eliminates the requirement for an ancillary cart as well as the requirement to disconnect, move and/or remove press components and lift and load the compression unit and/or turret.
Referring initially to
Although not shown in detail herein, the control cabinet 14 comprises an arcuate shaped housing 20 which wraps around the press assembly 12. The control cabinet 14 includes space for control components and operator displays, none of which are shown and do not themselves form part of the invention. Provision is also made for providing necessary electrical connections between control devices in the control cabinet 14 and the press assembly 12.
In accordance with the invention, the press assembly 12 is designed to isolate the turret drive assembly and pressure roll assemblies, described below, in the base assembly 16 from the detachable module 18 to provide a faster, more configurable, and safer solution for the customer. Having a detachable module 18 that incorporates the turret supporting base, described below, eliminates the requirement for an ancillary cart as well as the requirement to disconnect, move and/or remove press components and to lift and load the compression unit and/or turret.
Referring to
In the embodiment of
The top wall 23 is mounted atop the press housing 22 and is of a shape corresponding to the cover 24, discussed above. The top wall 23 supports a turret drive torque motor 62 which drives a downwardly depending drive shaft 64. The motor 62 is also configured to raise and lower the drive shaft 64 to engage a turret for rotation therewith.
Referring to
The module 18 comprises a module base 70 supporting a turret housing 72. The turret housing 72 has a top wall 76 supported on pillars 78 which are in turn supported on the module base 70. A transparent outer wall 74, omitted for clarity in
In a rotary tablet press, a turret is rotatable about a vertical axis and carries a plurality of dies. Each die has associated top and bottom punches driven by top and bottom cams to compress the granulation into a tablet. An upper punch, a lower punch and a die are together referred to as a station. This is discussed below relative to
The turret housing 72 encloses a turret assembly 80. The turret assembly 80 is mounted to a support 81 which is in turn supported on the module base 70. The turret assembly 80 is rotatable relative to the support 81. The turret assembly 80 typically includes a die table and upper punch guide and lower punch guide assemblies. The turret module 18 houses the turret assembly 80 along with a cam body, cams, feeder, tablet discharge chute, and a hopper. Although not shown in detail, the turret assembly 80 comprises chambers arranged circumferentially to hold upper punches, lower punches, and dies. As the turret assembly 80 rotates, punches follow a cam track and reciprocate into and out of dies that receive granulation as they are rotated under the feeder, as is conventional. A tablet is formed when the punches contact the pressure rolls 40, 42, 44 and 46 in
In accordance with the invention, the turret assembly 80 is driven by an inlet coupling 82 on the top wall 76 engageable by the drive shaft 64, see
Referring to
In accordance with the invention, a manufacturer may have a plurality of different turret modules for use with a single base assembly 16. Each module can have a different turret assembly and appurtenances depending on the type of tablet to be produced. There will be at least four total configurations for this machine design utilizing a base assembly with compression and drive assemblies with a removable module including a turret, feeder, and cam module assembly. Each will offer different turret confurations. Also, different configurations of the base assembly 16 may be provided with different number and configuration of compression roller assemblies, as discussed below.
For example, the rotary tablet press in accordance with the invention may be configured to be Single Layer & Single Sided (one feeder, one product); Single Layer & Double Sided (two feeders, two products); Bilayer (two feeders, one product); and Trilayer (three feeders, one product). A single sided press has only one feeder, and it is designed to make a single layer tablet. It is designed with two equal size compression assemblies for pre-compression and main compression. A triple sided press has three feeders, and it is designed to make a triple layer containing three different granulations. It is design with one large compression assembly for main compression.
Referring to
The press housing 122 includes two motorized pressure roll assemblies within the housing 122 as well as rails and mounting structure details of which are not shown. Reference may be made to the embodiment of
The top wall 123 is mounted atop the press housing 122 and is of a shape corresponding to the cover 124, discussed above. The top wall 123 supports a turret drive torque motor 162 which drives a downwardly depending drive shaft 164. The motor 162 is also configured to raise and lower the drive shaft 164 to engage a turret for rotation therewith.
Referring to
The module 118 comprises a module base 170 supporting a turret housing 172. The turret housing 172 has a top wall 176 supported on pillars 178 which are in turn supported on the module base 170. A transparent outer wall 174, omitted for clarity in
The turret housing 172 encloses a turret assembly 180, as above. The turret assembly 180 is mounted to a turret support 181 which is in turn supported on the module base 170. The turret assembly 180 is rotatable relative to the turret support 181. The detachable module 118 typically includes a turret assembly 180, a cam body, cams, feeder, tablet discharge chute, and a hopper. Although not shown in detail, the turret assembly 180 comprises chambers arranged circumferentially to hold upper punches, lower punches, and dies. As the turret assembly 180 rotates, punches follow a cam track and reciprocate into and out of dies that receive granulation as they are rotated under the feeder, as is conventional.
In accordance with the invention, the turret assembly 180 is driven by an inlet coupling 182 engageable by the drive shaft 164, see
Referring to
The press 210 comprises a base assembly 216 and a removeable/detachable module 218, see also
Referring to
The press housing 222 includes a motorized pressure roll assembly within the housing 222 as well as rails and mounting structure details of which are not shown. Reference may be made to the embodiment of
The top wall 223 is mounted atop the press housing 222 and is of a shape corresponding to the cover 224, discussed above. The top wall 223 supports a turret drive torque motor 262 which drives a downwardly depending drive shaft 264. The motor 262 is also configured to raise and lower the drive shaft 264 to engage a turret for rotation therewith.
Referring to
The module 218 comprises a module base 270 supporting a turret housing 272. The turret housing 272 has a top wall 276 supported on pillars 278 which are in turn supported on the module base 270. A cover 277 is provided on the top wall to provide space for additional components. A transparent outer wall (not shown in this embodiment) surrounds the front of the turret housing 272 to isolate the internal assemblies.
The turret housing 272 encloses a turret assembly 280, as above. The turret assembly 280 is mounted to a support 281 which is in turn supported on the module base 270. The turret assembly 280 is rotatable relative to the support 281. The turret module 218 typically includes the turret assembly 280, a cam body, cams, feeder, tablet discharge chute, and a hopper. Although not shown in detail, the turret assembly 280 comprises chambers arranged circumferentially to hold upper punches, lower punches, and dies. As the turret module 280 rotates, punches follow a cam track and reciprocate into and out of dies that receive granulation as they are rotated under the feeder, as is conventional.
In accordance with the invention, the turret assembly 280 is driven by an inlet coupling 282 engageable by the drive shaft 264, see
Referring to
The detachable module 318 is of a generally semi-circular shape, adapted to be received in the base assembly 116 in
The module 318 comprises a module base 370 supporting a turret housing 372. The turret housing 372 has a top wall 376 supported on pillars 378 which are in turn supported on the module base 370. A transparent outer wall 374 surrounds the front of the turret housing 372 to isolate the internal assemblies. The outer wall 374 may be of a clear polycarbonate material. When the detachable module 318 is secured to the base assembly 116, the detachable module 318 is sealed by incorporating an upper enclosure via the outer wall 374. The back of the turret housing 372 is open to allow the pressure roll assemblies 136 and 138 to engage the turret, as described previously.
The turret housing 372 encloses a turret assembly 380, as above. The turret assembly 380 is mounted to a turret support 381 which is in turn supported on the module base 370. The turret support 381 is removed in
In accordance with the invention, the module base 380 includes an interior space 300. A turret drive torque motor 362 which drives a upwardly extending drive shaft 264 is mounted in the interior space 300. The turret assembly 380 is driven by an inlet coupling 382 engageable by the drive shaft 364 for driving the turret assembly 380 from below. A powder inlet 384 is provided in the top wall 376 for providing granulated powder to a feeder assembly (not shown). A tablet take-off (not shown) guides the tablet as it is ejected from the die into a discharge chute 387.
The module base 370 has a bottom wall 388 with three downwardly depending studs 389. The studs 389 are aligned to be selectively received in corresponding female stud plates incident to the detachable module 318 being positioned proximate the base assembly 116. This may be done with a forklift or the like to lower the turret module 318 onto the base assembly bottom wall 130 with the studs 389 received in the stud plates. Other structure not shown is used to secure the turret module 318 to the base assembly 116 and to seal and isolate the turret housing 372 from the exterior. With the module 318 positioned with the base assembly 116 the rollers 140, 142, 144 and 146, are positioned relative to the module 318 to engage the turret assembly 380 and contact punches, not shown, to compress the granulated powder to form a tablet, in a conventional manner.
As described in the illustrated embodiments, a rotary tablet press comprises a machine base assembly and detachable module. Granulation is fed into the module from a hopper and travels into the feeder chamber. The base assembly comprises motorized pressure roll assemblies and a turret drive assembly. The detachable module comprises a module base, turret base, turret, cam body, cams, feeder, tablet discharge chute, hopper, upper enclosure, and guard doors. The rotary turret comprises upper punches, dies, and lower punches. As the turret rotates, the dies move underneath the feeder chamber. The rotary feeder paddles move the granulation and assist with feeding powder to the dies. Punches travel along cam tracks as the turret rotates and compresses the powder into a tablet when the punches contact the pressure rolls. An ejection cam pushes the lower punch in the upward direction and a take-off bar mounted just above the die table directs the tablet into a discharge chute. The detachable module is sealed by incorporating an upper enclosure.
It will be appreciated by those skilled in the art that there are many possible modifications to be made to the specific forms of the features and components of the disclosed embodiments while keeping within the spirit of the concepts disclosed herein. Accordingly, no limitations to the specific forms of the embodiments disclosed herein should be read into the claims unless expressly recited in the claims. Although a few embodiments have been described in detail above, other modifications are possible. Other embodiments may be within the scope of the following claims.
The foregoing disclosure of specific embodiments is intended to be illustrative of the broad concepts comprehended by the invention.
This application claims priority of Provisional Ser. No. 63/029,124 filed May 22, 2020, the disclosure of which is hereby incorporated by reference in its entirety.
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