Package making – Closing packages and filled receptacles – By means adapted to engage outturned seam of package cover
Reexamination Certificate
2002-10-23
2004-11-23
Kim, Eugene (Department: 3721)
Package making
Closing packages and filled receptacles
By means adapted to engage outturned seam of package cover
C053S374600, C053S375900
Reexamination Certificate
active
06820392
ABSTRACT:
TECHNICAL FIELD
The invention relates to apparatus for the processing of continuously fed material with tools which act on the material intermittently. Such apparatus is used, for example, in the production of filled bags made from an elongate film tube which is welded or glued at discrete locations to form the ends of the bags and seal in their contents. The film material typically is made of a thermoplastic foil which can be sealed by the application of pressure and heat or adhesive.
BACKGROUND ART
Depending on bag length, tools (e.g., sealing jaws) typically used in such apparatus extend perpendicularly of the film feed direction and intermittently flatten and glue or weld the film tube, using heat and pressure to form the ends of the bags. To allow adequate time for the heated sealing jaws to act on the packaging material so that the film tube is sealed to form the bag ends, the sealing jaws must travel at the same speed as the film tube, and must return to the advancing film upstream by one bag length after each welding or gluing operation.
This return travel can be achieved through the known use of a mechanism in the form of paddle wheels having the sealing jaws mounted at the tips of the paddles. The paddle wheels rotate at such a rate that the travel (tangential) speed of the sealing jaws coincides with the film feed speed.
Another known arrangement for the return travel of the sealing jaws by one bag length after each welding operation consists of a mechanism which retracts the sealing jaws from the film through a cam arrangement or an articulated joint. The sealing jaws are then returned in a straight-line or orbital path to the position of the next welding line and from this point move synchronously with the film for the required sealing time.
The paddle wheel-type sealing mechanism significantly limits throughput speed because of the required contact (sealing) time of the sealing jaws, and because return of the sealing jaws upstream to the start position requires more time than the filling of a bag, thus requiring the film feed to be slowed or stopped. Similar problems exist with other types of known sealing mechanisms. If it is desired to increase the film feed speed for the same packaging material (which would require the same sealing time), it would be necessary to increase the length (stroke) of the sealing operation, which in turn would also prolong the time for return travel of the sealing jaws.
SUMMARY OF THE INVENTION
It is, therefore, an object of the invention to provide apparatus for processing continuously fed elongate material which would permit a substantial increase in the throughput of processed material, while maintaining the required time for the synchronous movement of the processing tools when in contact with the processed material on which they act.
This and other objects are achieved in one aspect of the invention by providing an improved apparatus for processing elongate material continuously advancing along a processing path by using at least a first pair of cyclically driven tools between which the material passes as it moves along the processing path and which synchronously engage opposite faces of the material and move at the same linear speed as the material when in contact therewith, and return upstream to re-engage the advancing material and repeat the processing cycle, the improvement wherein each tool is cantilevered transversely of the processing path from a tool drive located adjacent a first edge of the processing path.
Another aspect of the invention involves an improved apparatus for processing elongate material as aforesaid, wherein the material is an elongate film tube.
A further aspect of the invention involves an improved bag forming and filling apparatus which forms bags, dispenses product into the bags and seals them, the bags being formed from an elongate film tube and processed by sealing tools as aforesaid.
In each of these aspects of the invention, the tool drive for each tool supports the tool for orbital movement around a drive axis that extends transversely of the processing path. Each tool is mounted on a tool carrier which is supported by the tool drive and has a tool carrier axis about which the tool carrier rotates, the tool carrier axis orbiting around its respective drive axis. Preferably, the tool carrier axis and the drive axis are parallel.
Preferably the tools are spring-mounted on the tool carriers, which affords necessary compliance to allow the orbit of the tool to flatten somewhat during contact with the material, and apply proper force to the material.
It is also possible to mount tools at an angle to their tool carriers such that the processing can occur at angles other than 90° to the direction of material movement. Through such an arrangement, e.g., bag shapes can be produced which have sloped seams.
Each tool drive comprises a crank arm having a drive end and a free end, each tool carrier is cantilevered at the free end of its respective crank arm, the drive end of the crank arm is supported for rotation about the drive axis. Preferably, all of the tool carrier axes and the drive axes are parallel.
Each tool has a working face adapted to engage the material, and the tool drives maintain the working faces of the tools in a mutually facing attitude throughout revolution of the tool carriers about their respective drive axes. To achieve this, each crank arm is rotatably driven at its drive end by a drive shaft which is journaled for rotation relative to a fixed shaft coaxial with the drive shaft and the drive axis. The tool carrier has a carrier shaft journaled for rotation at the free end of the crank arm for rotation about the tool carrier axis. A timing mechanism operatively interconnects the carrier shaft and the fixed shaft to effect counter-rotation of the carrier shaft relative to the crank arm at the same angular rate so that the attitude of the tool relative to the processing path is fixed. The timing mechanism may comprise an endless member, e.g. a toothed belt, which interconnects the carrier shaft and the fixed shaft.
The swivel connection between the tool carrier and the crank arm also simplifies pneumatic, electrical and other connections to the tool. Without the swivel connection, the tool would undergo a constant winding motion about the drive axis (as in prior art paddle wheel-type sealing machines), thus requiring rotary couplings for air, electricity, etc. With the swivel connection, direct flexible supply lines may be used which only undergo an orbital motion dictated by the length of the crank arm.
The cantilevered tool arrangement substantially frees up space in the processing area. Thus, and further according to the invention, a second pair of similarly driven tools may be provided to perform the same or a different function in opposition to the first pair. The second pair of tools is similarly supported in cantilevered fashion, but from tool drives located adjacent a second (opposite) edge of the processing path.
The second pair of tools may be located at the same longitudinal position along the processing path as the first pair of tools. In that case the drive axes for each set of two tools which act on the same face of the material are coaxial so that those two tools travel in the same orbital path, the first and second pairs of tools being synchronously operated out of phase so that they engage the material at different times and do not interfere with each other. Alternatively, the two pairs of tools may be located at different positions along the processing path. In either case, the first and second pairs of tools are operated independently, e.g. by separate servomotors.
If the two pairs of tool carriers are equipped with identical tools, the throughput of the apparatus may be doubled without increasing the speed of the dual drives. If each pair of tool carriers is equipped with different tools, two different operations can be executed in the processing area in the same cycle. In addition to sealing, these may include, e.g., stripping, cutting, and perforating.
In many kn
Helwig Christian
Matheyka Thomas
CMD Corporation
Corrigan George R.
Kim Eugene
LandOfFree
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