LIQUID COLOR GRAVIMETRIC METERING APPARATUS
Apparatus for delivering liquid color to a plastic resin processing machine includes a scale for weighing a container of liquid color, a pump for removing liquid color from the container and a controller for actuating the pump.
This patent application is a 35 U.S.C. 120 continuation of U.S. Ser. No. 13/110,391 entitled “Apparatus and Methods for Gravimetrically Metering Liquid Color” which in turn is a 35 U.S.C. 120 division of U.S. Ser. No. 11/454,625, now U.S. Pat. No. 7,958,915. Applicant claims the priority of U.S. Ser. No. 13/110,391 and U.S. Ser. No. 11/454,625 and hereby incorporates by reference the entire disclosures of those applications and U.S. Pat. No. 7,958,915.
This patent application discloses subject matter in common with U.S. patent application Ser. No. 11/455,003, filed 16 Jun. 2006, entitled “Multiple Pusher Liquid Color Pump”, now abandoned.
BACKGROUND OF THE INVENTION1. Field of the Invention
This invention relates generally to processing of plastic resin material in the course of fabrication, by molding or extrusion, into finished colored plastic parts, and more particularly to methods and apparatus for processing liquid color material used to impart a desired color to the finished plastic parts.
2. Description of the Prior Art
Color is imparted to finished plastic parts by adding a coloring agent, either liquid color material or solid color pellets, to plastic resin material as it is being fabricated into finished plastic parts. The liquid color or the colored pellets control the color of the finished plastic parts. Depending on whether liquid color or solid colored pellets are used, the position at which the coloring agent is added to the plastic resin material during the part fabrication process may change.
Colored solid pellets are easy to handle and do not create a mess in the event of spillage. This is not the case with liquid color. Liquid color is difficult to handle and, in the event of a spill, creates a serious clean-up problem with a threat of a safety hazard, since liquid color material spilling on a factory floor, which is typically smooth concrete, creates a very slippery surface.
Coloring agents for plastic parts, whether the agents be solid colored pellets or liquid color, are expensive. Coloring agents are never underused since underusage results in a defective, undercolored part. Overuse of a coloring agent does not alter the color of a fabricated finished plastic part. Instead, overuse of a coloring agent results in much the same effect as painting a wall multiple times with the same paint—it does not change the color of the wall. Accordingly, some overuse of the coloring agent is almost always the case. However, overuse is to be avoided since overuse means waste of the coloring agent, with consequent costs that need not be incurred in fabricating the plastic parts of interest.
Liquid color, with the attendant potential for problems in the event of a leak or spillage of the liquid color material, is currently typically added at the throat of an extrusion process or directly into an end of a barrel of a molding machine. If liquid color is added further upstream, for example into the weigh bin of a gravimetric blender as disclosed in U.S. Pat. No. 6,007,236, there is risk of liquid color contamination of the blender parts, which may interfere with blender operation. Additionally, introducing liquid color to the process by adding the liquid color into the blender weigh bin runs the risk of incurring color changeover issues. These problems have, to some extent, restricted use of liquid color in the plastic molding and extrusion.
Liquid color diaphragm pumping apparatus for use in the plastic molding and extrusion is disclosed in U.S. Pat. No. 7,416,096 and in U.S. patent application Ser. No. 10/856,422, filed 28 May 2004, published as United States patent publication 2005-0052945, now abandoned.
Lost of weight or “gravimetric” control has previously been used in processing solid color pellets furnished to plastic resin process equipment using auger feeders. However, gravimetric control has not heretofore been used with liquid color and associated liquid color pumps.
SUMMARY OF THE INVENTIONThis invention in its most pristine form involves use of a scale with a drum or pail of liquid color on the scale, with the scale sensing the weight of the drum or pail of liquid color, and thereafter controlling a pump according to the weight sensed by the scale, to run the pump faster or slower in order to maintain a desired rate of liquid color delivery to a process machine, namely an extruder or a molding press, based on feedback information received from the scale. This is a “loss of weight” or “gravimetric” approach to supplying liquid color to a plastic molding press or extruder.
The controller detects the loss of weight by the drum or pail as liquid color is removed, and compares actual weight readings with expected weight readings based on a desired usage rate for the liquid color. Once the comparison is performed, the controller adjusts the pump speed accordingly to supply, preferably continuously, the desired amount of liquid color material to the plastic resin process machine, namely a molding press or an extruder. Desirably, the liquid color material may be added at the throat of the extruder or directly into the end of the barrel of the molding press in the conventional manner.
Alternatively, the liquid color may be injected directly into either an extruder screw barrel or a molding press reciprocating screw barrel, at a position downstream from the barrel throat, closer to where the finished plastic parts are fabricated. This approach may be accomplished by using the methods and apparatus disclosed in U.S. Pat. No. 7,980,834, entitled “Liquid Color Injection Pressure Booster Pump and Pumping Methods” filed in the name of Stephen B. Maguire, who is the inventor on this application as well.
Whichever approach is taken for supplying liquid color to a resin process machine, this invention results in higher accuracy and tighter control over use of liquid color, with resulting significant savings in liquid color costs, which in a large plant can run into millions of dollars. Since liquid color usage and the process for control thereof are based on actual weight of liquid color consumed, this provides certainty, on a day-in and day-out basis, that the color usage rate is correct for a given part being molded or extruded.
Accordingly, in one of its aspects this invention provides apparatus for delivering liquid color to a plastic resin process machine where the apparatus includes a scale for continuously supporting and weighing a container of liquid color. The apparatus further includes a pump for removing liquid color from the container, with the pump desirably includes a housing, a plurality of pushers within the housing, preferably positioned side-by-side respecting one another, a compressible tube for transporting liquid color from the container to the process machine, with the tubing being insertable into the housing at a position at which each of the pushers when displaced squeezes the tube, and with the side-by-side positioning of the pushers resulting in the pushers serially contacting the tube when displaced.
The apparatus further includes a controller for repeatedly actuating the pushers in sequence whereby a first pusher is displaced to squeeze the tube substantially closed while the second and third pushers are not displaced, thereby permitting liquid color to flow through the tube from the supply to a first position of tube closure. A second pusher is then displaced to squeeze the tube substantially closed and trap liquid color in the tube between the first position of tube closure and a second position of tube closure. The first pusher is permitted to return to its undisplaced position thereby permitting liquid color to flow through the tube past the first position of tube closure, and a third pusher is displaced to squeeze the tube and thereby force at least a portion of the trapped liquid color through the tube past the first position of tube closure, thereby to supply liquid color to a plastic resin process machine at a predetermined rate, according to a selected recipe, to produce plastic parts having desired color characteristics. The controller senses weight of the container as received from the scale.
In yet another of its aspects this invention provides apparatus for delivering liquid color to a plastic resin material processing machine where the apparatus includes a scale for weighing a container of liquid color, a pump for removing liquid color from the container, with the pump including a housing, a plurality of pushers within the housing, and a compressible tube for transporting liquid color from the container to the process machine through the pump; with the tube being positioned in the housing so that each of the pushers, when displaced, squeezes the tube with the positioning of the pushers resulting in the pushers, when displaced, generally serially contacting the tube.
The invention in this aspect further includes a controller for repeatedly actuating the pushers whereby a first pusher is displaced to squeeze the tube while second and third pushers are not squeezing the tube, thereby permitting liquid color to flow through the tube from the supply to a first position of tube squeezing. After this, the second pusher is displaced to squeeze substantially trapped liquid color in the tube between the first and second positions of tube squeezing. The first pusher is then relaxed to a non-squeezing position, permitting liquid color to flow through the tube, past the first position of tube squeezing, and the third pusher is displaced to squeeze the tube and thereby substantially force at least a portion of the trapped liquid color through the tube, past the first position of tube squeezing, to supply liquid color to a plastic resin process machine at a predetermined rate according to a selected recipe to produce plastic parts having desired color characteristics, based on sensed container weight from the scale.
In yet another of its aspects this invention provides a method for supplying liquid color to a plastic resin material process machine where the method includes weighing a container of liquid color and transporting liquid color from the container to the plastic resin material process machine responsively to changes in weight of the container. In this method aspect of the invention, weighing the container preferably further includes continuously supporting the container. The weighing is preferably performed continuously.
In yet another aspect of the invention there is provided apparatus for delivering liquid color to a plastic resin process machine where the apparatus includes a scale for weighing a container of liquid color, a pump for removing liquid color from the container and supplying the liquid color to the plastic resin process machine, and a controller for regulating the pump to supply liquid color to the plastic resin material process machine at a predetermined rate, according to a selected recipe, to produce colored plastic parts having desired characteristics in response to changes of sensed weight of the container determined by the scale. In this apparatus aspect of the invention the scale preferably continuously weighs the container; furthermore, the scale preferably supports the container and further preferably does so in a continuous manner.
Referring to the drawings in general and to
A liquid color supply line 22 leads from the interior of container 14 to supply liquid color to triple pusher pump 16 at the inlet thereto, which has not been numbered in the drawings to enhance drawing clarity. Liquid color furnished by triple pusher pump 16 exits triple pusher pump 16 via liquid color supply line 24, which preferably leads directly to a resin material process machine such as an extruder or an injection molding press.
As further illustrated in
A signal line 52 carries a signal indicative of the sensed weight of container 14 and any liquid color therewithin, as determined by scale 12, to controller 18. Controller 18 includes push buttons 54 for programming controller 18 so as to operate triple pusher pump 16 and to furnish the desired amount of liquid color via liquid color supply line 22 to a process machine of interest according to the recipe for material for fabrication of the finished plastic parts of interest. Output lines 54, only one of which has been numbered in
Referring to
First piston-cylinder combination 34 has been shown with the exterior of the cylinder portion of the combination cut away to reveal the inner workings of piston-cylinder combination 34. As visible in
Piston cylinder combination 34 further includes a piston return spring 60, which is preferably of spiral configuration and slidably contacts the curved interior of cylinder 56, serving to return piston 58 to a vertically extreme upwards position when pressurized air is not furnished to piston-cylinder combination 34.
A first solenoid designated generally 40 actuates a first air valve designated generally 46 to supply compressed air via a line 61 to first piston-cylinder combination 34, thereby to push piston 58 downwardly. Fixed to piston 58 is a connecting rod 62 to which first pusher 28 is affixed, at the end of connecting rod 62 remote from piston 58. First, second and third piston-cylinder combinations 34, 36, 38 rest on plate 66 and are retained in position thereon by suitable nut and bushing combinations, one of which is designated 64 in
In comparing
Controller 18 is programmable so as to permit any desired sequence, within any reasonable range of speed, of operation of piston-cylinder combinations 34, 36, 38 thereby to permit any desired sequence of squeezing or unsqueezing of liquid color supply line 22 when positioned within housing 68 in the general manner illustrated in
First and third pushers 28, 32 are configured outer peripheries that are curved, and would appear as cylinders if viewed from the side in
Contrasting, third pusher 30 has a surface 72 facing liquid color supply tube 22 that is flat. Surface 72, being flat, results in liquid color within the portion of tube 22 directly beneath pusher 30 and along the entire length of surface 72 running parallel to liquid color supply line 22, being pushed out of liquid color supply line 22 when third pusher 30 is actuated by associated piston-cylinder combination 36 and pusher 30 squeezes liquid color supply line 22 completely closed, thereby forcing all liquid color material within liquid color supply line 22 beneath the projected area of pusher 30 towards the outlet of liquid color supply line in the direction indicated by arrow B in
In
Referring to
Next, as illustrated in
Next, first pusher 28 is retracted by release of the air pressure through deactuation of the associated solenoid 40 and action of return spring 60 pushing piston 58 in cylinder 56 upwardly, thereby raising first pusher 28 away from and out of contact with liquid color supply line 22, as illustrated in
As depicted in
Once third pusher 30 has completed squeezing the liquid color that is within tube 22 below the umbrella of pusher 30, first pusher 28 is actuated thereby closing liquid color supply tube 22 at a position of first tube closure, where first pusher 28 has squeezed liquid color supply tube closed, thereby preventing passage thereby of any liquid color. Second pusher 32 and third pusher 30 have been retracted by deactuation of their associated solenoids, which are not numbered in
During operation of the liquid color gravimetric metering apparatus, controller 18 continuously monitors the weight of container 14 and any liquid color contained therein. Controller 18 detects steady loss of weight by container 14 and compares the actual weight readings with expected weight readings that have been programmed into controller 18 based on a requested usage rate of liquid color for a given recipe of resin material being processed into finished parts. Controller 18 then adjusts the speed of pump 16 accordingly, by adjusting the rate of performance of the sequential operation of pushers 28, 32, 30 as described above, so that the desired amount of liquid color is always supplied by pump 16 at the rate needed for a given material recipe. Hence, pump 16 is controlled to run faster or slower in order to maintain the desired rate of liquid color use, based on feedback information as to loss of weight of container 14 as detected by scale 12.
Claims
1. Apparatus for delivering liquid color to a plastic resin process machine, comprising:
- a) a scale for weighing a container of liquid color;
- b) a pump for removing liquid color from the container and supplying the liquid color to the plastic resin process machine; and
- c) a controller for regulating the pump to supply liquid color to the plastic resin process machine at a predetermined rate according to a selected recipe to produce plastic parts having desired characteristics, in response to changes in sensed weight of the container determined by the scale.
2. Apparatus of claim 1 wherein the scale continuously weighs the container.
3. Apparatus of claim 1 wherein the scale supports the container.
4. Apparatus of claim 2 wherein the scale supports the container.
5. Apparatus for delivering liquid color to a plastic resin process machine, comprising:
- a) a scale for weighing a container of liquid color; and
- b) a pump for removing liquid color from the container and supplying the liquid color to the plastic resin process machine in response to changes in sensed weight of the container determined by the scale.
- c) means for continuously comparing actual readings from the scale to expected readings based on a desired predetermined liquid color usage rate and continuously regulating speed of pumping in response to such comparison to supply liquid color directly into the plastic resin process machine screw barrel according to a selected recipe of resin material to produce plastic parts having desired color characteristics.
6. Apparatus of claim 5 wherein the scale continuously weighs the container.
7. Apparatus of claim 5 wherein the scale supports the container.
8. Apparatus of claim 6 wherein the scale supports the container.
9. Apparatus for delivering liquid color into the screw barrel of a plastic resin process machine, comprising:
- a) means for weighing a container of liquid color;
- b) a pump for pumping liquid color from the container into the screw barrel of the plastic resin process machine; and
- c) means for comparing actual weight readings to expected readings based on a desired liquid color usage rate and continuously regulating speed of the pump to supply liquid color to the plastic resin process machine at the desired liquid color usage rate according to a selected recipe of resin material to produce plastic parts having desired color characteristics.
10. Apparatus of claim 9 wherein the weigh means continuously weighs the container.
11. Apparatus of claim 9 wherein the weigh means supports the container.
12. Apparatus of 10 wherein the weigh means supports the container.
Type: Application
Filed: Apr 21, 2014
Publication Date: Aug 14, 2014
Inventor: Stephen B. Maguire (West Chester, PA)
Application Number: 14/257,550
International Classification: G01G 13/24 (20060101);