Method and apparatus for impulse sealing polymeric vials in tandem

An improved vertical, vial, impulse heat sealing apparatus, the improvements including a light weight, precision milled frame with increased interchangability of component parts and increased structural strength, a more positive toggle system that eliminates misalignments and allows more stringent tolerances, a safety lock system to prevent operating personnel injury, improved stability and leverage efficiency, improved heat distribution, modular precision components for improved maintenance capability, improved terminal connector materials and method for installing replacement heater bands, improved connector-wire routing, provisions for precision shim plate adjustment specially adapted for use with proprietary vials arranged in three tandem units of five vials each, special designed precision vial holders, and an alternate embodiment provides a conversion package for converting existing apparatus for automatic operation and improved safety.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT As first seen in FIG. 1 , the improved vertical, impulse heat sealing assembly apparatus includes a base plate 12 machined from light weight aluminum, a vertical plate 14 flanked on each side and held in an attached position by gusset plates 16 , better seen in FIG. 2 , attached at each side of the base plate 12 , a guide bar 18 attached to the upper or work surface of the base plate 12 , and an electrical control enclosure 20 fitted to the back or control side of the vertical plate 14 . The upper surface of the base plate 12 should be smooth and flat and the vertical plate 14 should be rigid, stable and perpendicular to the upper surface of the base plate 12 . The electrical controls are mounted to the control side of the vertical plate 14 and enclosed by panel 20 attached to the vertical plate 14 and the base plate 12 . The enclosure 20 is vented with louvers 22 to dissipate internal heat. Wiring from the heater bars 32 , 44 are fed through holes 25 in the vertical mounting plate 14 for connecton to electrical controls located in the enclosure 20 . The electrical enclosure 20 contains all electrical components within, having only control switch 26 and buttons 28 and indicator lights 30 exposed as seen in FIG. 3 . A stationary heater bar is attached to the mounting face of the vertical plate 14 opposite the control enclosure 20 and precision machined to be parallel with and at a precise height above the base plate 12 . The movable arm assembly 33 , seen in FIG. 3 , includes a pair of over-center toggle clamps 34 mounted on spacer blocks 36 , bolted to the vertical plate 14 . The lever portion 35 of each of the toggle clamps 34 is connected to each other by connecting a handle bar 38 , the handle bar 38 having a handle 40 located intermediate the toggle levers 35 and extending perpendicular thereto. The over-center clamp arms 42 of the toggle assembly 34 are rigidly connected to a movable heater bar 44 by blocks 46 , which are in turn connected to the heater bar 44 , as seen in FIG. 4 , the assembly further including a lock bar 48 pivotally attached to one of the clamp arms 42 in a manner whereby an end of the lock bar 48 engages a notch in a stationary bracket portion 50 of the toggle assembly 34 , as illustrated in FIG. 1 . A lifting bar 52 attached to the heel 54 of the heater bar 44 is also provided to assist in lifting the movable heater bar 44 and help prevent personal injury from burns. A micro limit switch 24 shown mounted to spacer block 26 in FIG. 3 is activated by adjustable arm assembly 56 , also attached to the movable heater bar 44 , as best seen in FIG. 2 . The assembly 56 includes a connecting bar 58 , a threadable adjusting element 60 , and a bumper element 62 . In operation the limit switch 24 is contacted by the adjusting element 60 and its bumper element 62 when the movable heater head 44 is brought into near proximity with the stationary heater bar 32 , thereby actuating the limit switch and the heater circuits for a timed cycle. Turning now to FIG. 5 , we see that the stationary bar assembly 32 is typically mounted to the vertical plate 14 by four screws 70 passing through the precision machined heater bar 72 . The one piece machined aluminum heater bar 72 is “L” shaped having vertical and horizontal leg portions which increases the bar's mass, thus increasing heat distribution. The horizontal portion, being the short leg portion of the “L”, is recessed at each end for receiving a terminal connector 78 and tapped along its length at intervals on both top and bottom sides for receiving screws 80 passing through the brass retaining plates 82 . The vertical portion of the bar 72 is through drilled lengthwise counter bored and tapped 74 at each end for water line fittings at each end and is grooved lengthwise along its upper edge to provide a wire channel 76 . The bar is further tapped along its upper edge for receiving screws 84 passing through as securing cover strip 86 . The notched recesses 88 are bored therein for receiving the pin and spring portion of the terminal connector assemblies 78 and are cross drilled and tapped to receive a set screw 90 . Unlike previous heat sealers of this type, which use micarta terminal connection blocks tapped to receive a terminal screw which often becomes loose and burns, the connector 78 as shown in FIG. 5 a includes a ceramic block 92 having an integral pin portion or super imposed around and upon a pin 94 , the ceramic block is taped opposite the pin to receive a threaded stud 97 . A connecting nut 110 and washer 108 are provided cooperative with said stud 97 . When inserting the terminal connector 78 into the recess 88 , a spring 95 is superimposed over a portion of the stud 94 in a manner whereby the terminal connector is biased towards the end of the bar 74 . When installed, the spring is compressed and the set screws 90 set to retain the ceramic connector block 92 in place within the recess 88 . A high temperature insulating adhesive backed strip 100 , usually a Teflon coated fiberglass tape, is applied along the face 102 of the heater bar 72 conforming to all exposed surfaces and held firmly in place between the two brass plates 82 . The electrical heater band 104 is attached by placing the eyelet 106 over the exposed portions of each connector terminal stud 94 and securing thereto with the aforementioned washer 108 and nut 110 . The afore-mentioned set screws 90 are then loosened, thereby allowing the connector terminals to be extended due to biasing by the spring 95 , thereby placing the heater band 104 in tension. A non-adhesive backed insulating tape 112 is applied over the heater band 104 , thereby covering all of the exposed surfaces of the horizontal portion of the bar 72 . The high temperature insulating strip 112 being carefully applied over the electrical heater strip 104 and between the brass strips 82 and the horizontal portion of the bar 72 adjacent each side of the heater band face 102 . A precision machined shim plate or bar 114 is attached to the stationary bar 72 adjacent the upper most brass plate 82 and secured to the bar 72 by screws 116 . A precision machined aluminum shim strip having slots 120 along one edge for adjustably mounting the shim strip 118 vertically to the shim bar 114 and a series of notches 122 located along the opposite edge which correspond to the spacing between vials 124 as shown in FIG. 6 connected by webs 126 molded in groups of five each. Therefore, the spacing between the vials 124 matches the spacing of the notches 122 of the shim plates 118 and the thickness of the shim plate 118 corresponds to the thickness of the vial's walls when properly sealed. In grouping the vials 124 in tandem or set of three groups of five vials each, a space equal to one web space is also provided between each group. The use of a shim plate 118 provides a method for controlling pressure uniformity and a neat appearance to the sealed vials. The vials 124 are held in precise location relative to the notches 122 in the shim plate 118 by a the vial filling and sealing fixture assembly 128 shown in FIG. 7 . The fixture is precision machined to match the vial groups as molded, shown in FIG. 7 , and located in tandem of three sets. The fixture includes an upper horizontal plate machined to receive the upper tube portion 132 of the vials 124 and a second horizontal plate 134 shown in FIG. 7 a is adapted to receive the tip 136 and or lower portion of the vial 124 . However, the vial openings in the plate 134 are not connected. Vertical plates 138 attached on edge to a third horizontal bar 135 serve as spacers and guide plate members to determine the precise height from the base plate to point of contact of the vial with the uppermost part of the notch 122 of the shim plate 118 . At least one of the plates 138 serves as a guide and locator when placed in contact with the guide arm 18 seen in FIG. 1 . If any of the fixture components become worn or misaligned, quality of the vial seal is reduced. The movable heater bar assembly 44 is essentially the same as that described for the stationary heater bar assembly 32 above, the only difference being the attachment of the toggle arm connector blocks 46 , the lifting handle 52 , and the switch actuator assembly 68 . It should also be noted that both the movable and stationary heater bars are water cooled. Heater bar wiring is improved by passing the wiring through the vertical plate 14 , capturing the wiring along the heater bar groove 76 , shown in FIG. 5 , where the wiring terminates at the terminal connector studs 94 located at each end of the heater bars 32 , 44 . It has been found that the heater bar assemblies 32 , 44 may also be configured whereby the bar 72 also includes the spacer bar element 114 as an intergral piece. In which case a slit is provided between the spacer bar poriton and the upper surface of the bar adjacent to face 102 for insertion of a portion of the insulating tape 112 , thereby eliminating the need for upper brass strip 82 . This configuration reduces the number of pieces required thereby reducing inventory. Obviously, pneumatic operation of the heat sealing machine described above would be advantageous. However, in the past, a completely different configuration was required by the manufacturer for pneumatic heat sealing operation requiring purchase of a new machine. However, it is much more efficient to simply provide a conversion package for attaching pneumatic actuators to the existing apparatus as seen in FIG. 8 . The pneumatic conversion only requires that the handle assembly 34 be removed and the twin pneumatic cylinder and pivotal support assemblies 200 installed. The assemblies 200 include adapter linkage and all mounting hardware, as well as air line connectors and operation valve, ready for connection to a pneumatic pressure source. It should also be noted that the vile fixture assembly 128 as seen in FIG. 7 used for holding the vile cluster 132 shown in FIG. 6 may be adapted for use with alternative vile clusters provided by other manufacturers. Vile clusters may also be contained in a single polymeric block 300 having a single elongated slot 302 fastened to the base 135 with screws 304 as shown in FIG. 9 or with multiple elongated slots 306 in block 308 as seen in FIG. 10 and adapted to the base member 135 as seen in FIG. 10 . Other innovations include the use of thick film heaters in place of the heater band 104 . such technology utilizes a thick film on stainless steel thereby providing a low profile heater strip. Such film strips ensure greater heat transfer and faster heat up. Film heaters provide fast response with low thermal mass with greater distributed wattages. Of major importance is the film heaters ability to allow heat variation output across the entire unit, thereby allowing concentration in critical areas and correcting for temerture uniformity problems. A wide range of materials maybe be utilized with film heaters and thereby increases the film heaters capability and usefulness with clamp-on type vile sealing machines. As seen in FIG. 11 the file strips are easily constructed and substituted for the heater band 104 by reconfiguring the heater bar assembly 44 by replacing the heater bar 72 assembly with the new heater bar 312 which includes the dovetailed heat strip 314 shown in FIG. 11 , shown in cross section in FIG. 12 and clamped between channel members 314 as seen in the exploded view of FIG. 14 and held therein by screws 322 . The strip 314 consist basically of a stainless steel substrate 316 having a built-up glass layer 318 enclosing a metallic powder. The strip is then sealed by heat zone tape 324 encapsulating the heat strip 314 . New pipe fitting taps are also provided on the reverse side as show in FIG. 15 to prevent interference with the termination screws at each end of the heater strip 314 . Alternative heater shim plates 330 as seen in FIG. 16 may be provided and adapted as needed for various fixtures. An alternative embodiment utilizing the simplified film heater strip Technology is illustrated in FIG. 17 as embodiment 400 and further illustrated in FIG. 18 showing the angulation of the movable heater strip located at 12 degrees above the horizontal. This system utilizes a pair of air cylinders 402 attached to the bas mounting bar 404 which is in turn mounted to the frame member 14 , the vile fixture 300 passes under the movable bar 406 . Because many varying and different embodiments may be made within the scope of the inventive concept herein taught, and because many modifications may be made in the embodiments herein detailed in accordance with the descriptive requirement of the law, it is to be understood that the details herein are to be interpreted as illustrative and not in any limiting sense.