Method of Dispensing a Material
A method and system for dispensing a material through a delivery apparatus is provided. The material initially comprises or is manipulated to comprise a low viscosity. The material either can comprise a curable material or can comprise initiators, which can be activated to raise the viscosity at a later time and position. The low viscosity material is moved through the delivery apparatus for a relatively long distance using low energy. Upon nearing an end use application, the material and/or initiators can be activated by a curing agent, such as a light or heat source, such that the viscosity of the material be raised prior to the end use application thereof. Therefore, the present invention provides a method and system for moving a material normally having a higher viscosity a long distance requiring lower energy and pressure.
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This application is a continuation of U.S. application Ser. No. 15/233,374 filed Aug. 10, 2016, which is a continuation of U.S. Pat. No. 9,772,059 issued on Sep. 26, 2016, the complete disclosures of which are expressly incorporated by this reference.
FIELD OF THE INVENTIONThe present invention relates generally to a method for moving and dispensing a material over a relatively long distance by utilizing a material having an initial low viscosity and raising the viscosity during transport of the material at or near a final end use for the material.
BACKGROUND OF THE INVENTIONLiquid or liquid-like materials, such as resins, medicines or other healthcare liquids, grouts, and the like are often utilized or needed at a location remote from a storage or source. Therefore, the materials are pumped or otherwise transported from the storage or source to the location of the end use application for the material. The materials can be transported relatively long distances. For example, resin used for pipe repair can be pumped hundreds of feet. Liquids used in healthcare, such as pumping a material through a patient's blood vessel or to a location in a patient, may not be as long of a distance, but due to the size of the material and delivery apparatus, the distance is comparable to pumping the resin for pipe repair over the longer distance.
To be able to pump the material the required distance, the viscosity of the liquid. material must be low enough to not become clogged or otherwise prevent the movement of the material. While the low viscosity material is ideal for pumping or transporting, it can be less than ideal for the actual end use application for the material. For example, a material having a low viscosity would sag or fall off the interior wall of the pipe or structure, when used to repair pipes. For other uses, the low viscosity of the material will prevent proper end use applications as well. Blood or medicine that is transported to a particular location in a patient may not be able to be utilized, as it does not have the correct consistency or viscosity for the use.
Methods have been used to try to change the viscosity of a material in transport. One application has been used in pipe repair. The technology will take a two-part epoxy and twin hoses—one hose having part A and the other having part B. The materials are pumped through the hoses and then mixed at the end of the hose; typically, where there is a spinning nozzle that will spin the materials onto the wall of the pipe. The mixed material is typically very thick (high viscosity), making it difficult to pump through the hoses. To compensate, heated hoses are used to lower the viscosity by raising the temperature. A problem with this is that heated hoses in a pipeline, especially in a sewer, are not a good thing. In addition, the hoses are very expensive and are big, heavy, and bulky, with connectors that can short out and corrode. Another disadvantage is that when the material does come out the end, it is a low viscosity because it has been heated. Even if the last 25-50 feet of hose is not heated, which allows the material to thicken, you now have 50 feet of hose that you are pumping a high viscosity material, which will require higher pressures. There is also the concern of viscosities not changing between A and B because you need the proper mix ratio.
Therefore, there is a need in the art for a method and apparatus for pumping a curable material a long distance, while allowing the viscosity of the material to be changed prior to reaching its end use application such that the material will be in a usable form at the location of its end use.
SUMMARY OF THE INVENTIONIt is therefore a primary object, feature, and/or advantage of the present invention to overcome deficiencies in the art.
It is another object, feature, and/or advantage of the present invention to provide a method for transporting a liquid or liquid-like material a distance and changing the viscosity of the material prior to an end use.
It is yet another object, feature, and/or advantage of the present invention to provide a method of at least partially changing the viscosity of a liquid or liquid-like material while transporting the material.
It is still another object, feature, and/or advantage of the present invention to provide a method for pumping a curable material a long distance.
It is yet a further object, feature, and/or advantage of the present invention to provide a method and apparatus for repairing a pipe using a one-part, UV cured resin pumped a long distance.
It is still a further object, feature, and/or advantage of the present invention to provide a method and apparatus that includes a partial curing region in a pumping and dispensing apparatus to partially cure a material during transport.
These and/or other objects, features, and advantages of the present invention will be apparent to those skilled in the art. The present invention is not to be limited to or by these objects, features and advantages. No single embodiment need provide each and every object, feature, or advantage.
According to an aspect of the invention, a method of dispensing a material through a delivery apparatus having a starting end and a dispensing end is provided. The method includes pumping a material capable of changing viscosities through the delivery apparatus, at least partially changing the viscosity of the material via a UV-light source while pumping the material, and dispensing the material comprising the at least partially changed viscosity out of the dispensing end of the delivery apparatus.
The material can comprise curable material, such as an ultraviolet (UV) curable initiator. Generally, the material will be a one-part material, such as a one-part resin. The UV initiators can be added to the material. Thus, the material can be changed to a low viscosity, with the initiators therein. The material can be pumped through the delivery apparatus. At a location relatively near or at the dispensing end or end use of the material, the material can be exposed, at least briefly, to a UV light source. The light source would raise the viscosity of the resin. The resin would then be in a more usable form for the intended end use application of the resin, e.g., repairing the wall of a pipe.
According to another aspect of the invention, a method of moving a liquid material through an apparatus to an end use application is provided. The method includes providing a material having a first viscosity and comprising a UV-curable initiator, moving the material through the apparatus and towards the end use application, and changing the viscosity of the material to a viscosity higher than the first viscosity while continuing to move the material towards the end use application.
According to yet another aspect of the invention, a system for moving a material to an end use application is provided. The system includes a delivery apparatus comprising a first end and a second end, a material capable of changing viscosities capable of being pumped through the delivery apparatus and towards the end use application, the material comprising a UV-curable initiator, and a curing agent adjacent the delivery apparatus to at least partially raise the viscosity of the material by partially curing the material prior to the end use application.
The material 74 may be liquid or liquid-like. For example, the material 74 may be an epoxy, resin, composition, solution, mixture, or the like. The material may be a single component material or may be a composition of one or more components. The material 74 at the first end 86 of the delivery apparatus 84, or within the storage 72, comprises or is manipulated to comprise a low viscosity. The low viscosity of the material 74 will allow the pump 80 connected to the delivery apparatus 84 to pump the material 74 using less energy and/or pressure. This will allow a greater efficiency of movement of the material through the delivery apparatus 84, as well as reducing the costs due to the reduction in energy required for the pump 80 to pump the material 74. It should also be appreciated that pumping a material 74 having a relatively low viscosity will reduce the amount of time of transporting the material. For example, low viscosity materials could be around 50 centipoise (cP), while high viscosity materials can be as much as or more than 50,000 cP.
The material 74 at the storage/source 72 may comprise a low viscosity, or may be mixed with a component to reduce the viscosity thereof. For example, silicone or other thick resins, grouts, or epoxies, may be mixed with a chemistry to thin out the material, thus reducing the viscosity of the material. In addition, initiators such as UV initiators 76 and/or heat initiators 78 may be included with the reduced viscosity material. Reducing the viscosity of the material will allow the material to be pumped through a delivery apparatus 84 with less pressure, energy, time, etc. The viscosity of the material will be able to be raised at a later location of the delivery apparatus 84 such that the end use application 100 may utilize the higher viscosity of the material 74. The end use application 100 may utilize the material 74 having a viscosity similar to the original viscosity before thinning, or may even be at a higher viscosity such that it can be used as desired.
The material 74 comprising a low viscosity and either comprising a UV curable material or including UV initiators 76 therein is pumped via the pump 80 in the direction generally shown as arrow 82 through the starting or first end 86 of the delivery apparatus 84. The pump may be a vacuum pump or other type of pump. As the viscosity of the material 74 will be relatively low, the pump will not be required to produce a great deal of pressure in transferring the material 74 therethrough. However, at some distance away from the first end 86 of the delivery apparatus 84, it may be beneficial to at least partially change the viscosity of the material 74 by raising the viscosity. For example, since the viscosity of the material was lowered or at a lower state at the beginning of the use, the material will be more easily pumped. However, this low viscosity material 74 may not be ideal for its intended end use application 100. As will be discussed, a possible end use of the material may be pipe repair wherein the material is dispensed about the interior of a pipe. A material having a low viscosity will not be ideal for such an application, as the material would sag or not stick to the full periphery of the interior of the pipe wall. Therefore, it may be preferred to at least partially raise the viscosity of the material prior to dispensing the material 74 at the interior of the pipe wall. This would allow the material to maintain its position about the interior periphery of the pipe wall.
Therefore, at some distance from the first end 86 of the delivery apparatus 84, a curing agent or station 88 may be provided. As will be appreciated, the curing agent 88 as provided for the present invention comprises a non-chemical, externally based device or system for at least partially raising the viscosity of the material 74. The schematic of
After passing the curing agent or station 88, the material is continued in the direction shown by the arrow 94 towards the distal or second end 96 of the delivery apparatus 84. The material is continued towards the end use application 100 thereof. It should be appreciated that the end use application 100 for the material 74 is generally a relatively long distance away from the first end 86 of the delivery apparatus 84. Thus, the low viscosity of the material at the first end will allow the material to be dispensed to the curing station 88 and thus end use application 100 using relatively low pressure and/or energy. It should also be appreciated that the curing agent or station 88 and the end use application 100 be either at the same location or relatively close to one another such that once the material 74 has had its viscosity raised, the higher viscosity material 74 will not need to be pumped a great distance. This will further aid in reducing the energy and/or pressure of the pump required to transport the material through the delivery apparatus 84.
The present invention contemplates various end use applications 100 for delivering the material 74 and changing the viscosity of the material 74 from a generally low viscosity to a generally higher viscosity prior to the end use application 100. For example, as will be discussed in relation to
Other possible end use application may include medical use 104 and dispensing or transfer of materials 106. For example, as mentioned above, the method and apparatus of the system 70 of the present invention could be used to dispense or transfer a material a relatively large or long distance. The material 74 could start with a high viscosity and could be thinned by adding a component to it that makes it thin out, i.e. reduces the viscosity. A UV initiator 76 could also be added to the material 74 at the thinned or low viscosity stage. At the discharge end of the delivery apparatus 84, the low viscosity material 74 containing or comprising the UV initiator 76 could be exposed to a UV light to turn the low viscosity material back into the original thick material as it was before being thinned. The exposure to light could also raise the viscosity to an even higher viscosity than the original material 74. The amount of change of viscosity could be varied by the intensity of light, the amount of time exposed to light, the voltage amount, the wavelength of the light, etc. Therefore, materials such as oil 108, other natural resources 110, silicone or other plastics 112, or other materials 114 could be transferred a relatively long distance through a delivery apparatus 84 by the present invention. The materials could simply be thinned out to lower the viscosity prior to dispensing the material. An initiator, such as a UV initiator 76 and/or heat initiator 78 could be added to the low viscosity material 74. The material is then pumped through the delivery apparatus to the end use application. For instance, the oil could be dispensed to its end use application such as a refinery. At or just prior to this end use application, the material can be exposed to a curing agent, such as a UV light source 90 and/or heat source 92 such that the material will be brought back to approximately its original viscosity level. However, it should be appreciated that the viscosity level could be varied such that the end use application has the viscosity of the material at a lower level of viscosity or a higher level of viscosity than the material originally comprised.
It should be appreciated that the system and method according to the present invention has numerous uses and benefits. For example, as mentioned, the medical industry could include UV light initiators in blood or medicine prior to being dispensed within a patient's body. At or close to an end use application, such as an infection site or surgery site, the blood and/or medicine could be exposed to a UV light source to raise viscosity of the material prior to reaching the end use application. Other industrial plants that have a product or products that need to be pumped and transported could also benefit from the method and system of the present invention. Therefore, it should be appreciated that the examples described herein are for illustrative purposes only, and are not to be an exhaustive list of possible uses for the present invention. The present invention contemplates that generally any material could be transported using the system and method of the present invention.
Referring to
To repair the damaged section 16 of the main pipe 10, a tractor 22, an extruder 24, and a bladder 30 are inserted within the pipe 10. The tractor 22 includes a plurality of wheels 23 for movement of the tractor 22 about the interior 20 of the main pipe 10. The extruder or dispensing apparatus 24 is attached to an end of the tractor 22. The bladder 30, as shown in
The tractor 22 and extruder 24 are connected to one another, and also to a resin hose 28. The resin hose 28 is connected to a resin reel 42, and is used to transport a resinous material 26 that is pumped via pump 41 from a resin source 40. The pump 41 and resin source 40 may be located on a truck 44 positioned outside of the pipe system. The pump 41 is used to pump resin 26 from the source 40 through the resin line 28 into, through, and out of the extruder 24.
As discussed above, the bladder 30 is positioned in the pipe 10, including adjacent to or through the tractor 22 and extruder 24. Shown in
The resinous material 26 being pumped through the resin line 28, tractor 22, and out the extruder or dispensing apparatus 24 may be a one part, ultraviolet (UV) cured resin. The resin material 26 may have a low viscosity while being stored in the reservoir 40 and also while being pumped through the resin line 28. However, the viscosity of the resin material 26 may be increased to a higher viscosity prior to being dispensed at the extruder 24. Therefore, the tractor 22 may include a light tunnel 34 therein. The light tunnel 54, as will be discussed below, will include light initiators 56 for at least partially activating and curing the UV-cured resin 26 as it is pumped through the tractor 22. The light tunnel 54 of the tractor 22 will increase the viscosity of the resin material 26 prior to being dispensed via the extruder 24. As in known in the art, it is advantageous to have a higher viscosity material being pumped in a manner similar to that shown in
Therefore, as shown in
Other components shown in
As discussed, the bladder 30 may be connected to a bladder roller 50 at an open end 33 of the bladder 30. The bladder roller 50 may include an inflation source 46, such as an air source, for inflating the bladder as the repair assembly (tractor, extruder, etc.) moves through the pipe 10. The inflation source 46 will provide air or another fluid to the interior of the bladder 30 such that the inflating edge of the bladder will remain close to the dispensing head or extruder exit 60 such that the bladder 30 will press the resin material 26 between the exterior 32 of the bladder 30 and the interior 20 of the pipe 10 as it is being dispensed. The present invention contemplates that the resin material 26 may be dispensed either in front of or behind the inflating edge of the bladder 30. It is also contemplated that, instead of the tractor 22 moving due to the resin hose reel 42, the inflation of the bladder 30 may also press against the extruder exit 60 end of the extruder 24 such that the continued inflation of the bladder 30 will move the tractor 22 and extruder 24 through the pipe 10. The extruder 24 may also include a plate (not shown) or other device for resting adjacent the inflating portion of the bladder 30. In addition, a rope 48 may be connected to the reel 50 and closed end 34 of the bladder 30 such that the rope may be pulled or reeled once the resinous material has cured to remove the bladder 30 from the interior of the pipe 10. However, it is also contemplated in other embodiments that the bladder may remain within the pipe 10.
While
Thus, as has been shown, the present invention is a method and system for transporting a liquid or liquid-like material through a hose, conduit or other dispensing apparatus by pumping, vacuuming, or the like. The material starts out being low, to require the least amount of energy to move the material through the dispensing apparatus. For example, the more consistency the material is like water, the easier it is to move said material. However, material can comprise a heat or light curable material, or can comprise heat or light initiators therein. The curable material and/or initiators provide for the raising of the viscosity of the material at some later location after transport of the material through the delivery apparatus. Thus, once the material has been transported using the least amount of energy, prior to an end use application. thereof, the material can be activated to raise the viscosity thereof to allow for the end use application of the material.
The invention has been shown and described above with reference to embodiments, and it is understood that modifications, substitutions, and additions may be made which are within the intended spirit and scope of the invention. For example, the invention has shown and describes specific examples for the use of the present invention. However, as has been mentioned, the examples and descriptions listed herein are for exemplary and illustrative purposes only, and are not to be limiting to the scope of the invention. The invention is only to be limited by claims appended hereto.
Claims
1. A method of dispensing a material through a delivery apparatus, comprising:
- pumping a material capable of changing viscosities through the delivery apparatus toward a patient's body, wherein the material is one of blood or medicine;
- at least partially changing the viscosity of the material while pumping the material toward a dispensing apparatus; and
- dispensing the material comprising the at least partially changed viscosity through the dispensing apparatus to an end use application.
2. The method of claim 1 further comprising adding a UV light initiator to the material prior to pumping the material though the delivery apparatus.
3. The method of claim 2 wherein the viscosity is changed by exposing the material to an ultraviolet (UV) light source.
4. The method of claim 1 further comprising adding a heat-curable initiator to the material prior to pumping the material though the delivery apparatus.
5. The method of claim 4 wherein viscosity is changed by exposing the material to a heat source.
6. The method of claim 1 wherein the end use application is one of an infection site on the patient's body or a surgery site on the patient's body.
7. A method of dispensing a material through a delivery apparatus, comprising:
- taking a material capable of changing viscosities;
- reducing the viscosity of the material from a first viscosity to a second viscosity;
- pumping the material having the second viscosity through the delivery apparatus;
- at least partially raising the viscosity of the material to a third viscosity while pumping the material toward a dispensing apparatus; and
- dispensing the material comprising the third viscosity through the dispensing apparatus to an end use application.
8. The method of claim 7 wherein the third viscosity is the same as the first viscosity.
9. The method of claim 7 wherein the third viscosity is higher than the first viscosity.
10. The method of claim 7 wherein the third viscosity is lower than the first viscosity.
11. The method of claim 7 wherein the material is one of blood, medicine, resin, oil, silicone, and plastics.
12. The method of claim 7 further comprising adding a UV light initiator to the material prior to pumping the material though the delivery apparatus.
13. The method of claim 12 wherein the viscosity is raised by exposing the material to an ultraviolet (UV) light source.
14. The method of claim 7 further comprising adding a heat-curable initiator to the material prior to pumping the material though the delivery apparatus.
15. The method of claim 14 wherein viscosity is raised by exposing the material to a heat source.
16. The method of claim 7 wherein reducing the viscosity includes thinning the material.
17. A system for dispensing a material, comprising:
- a delivery apparatus having a first end and a second end;
- a curing station at or near the second end of the delivery apparatus;
- a material capable of changing viscosities capable of being pumped through the delivery apparatus and towards the curing station, wherein the material is one of blood or medicine; and
- a pump in fluid communication with the delivery apparatus for pumping the material through the delivery apparatus toward a patient's body;
- wherein the curing station is adapted to at least partially raise the viscosity of the material prior to dispensing of the material from the curing station.
18. The system of claim 17 wherein the material includes a UV initiator and the curing station includes a UV-light that raises the viscosity of the material.
19. The system of claim 17 wherein the material includes a heat initiator and the curing station includes a heat source for raising the viscosity of the material.
20. The system of claim 17 wherein the delivery apparatus is a tube.
21. The system of claim 17 wherein the delivery apparatus includes a dispensing apparatus at the second end and the delivery apparatus dispenses the material within the patient's body.
Type: Application
Filed: Sep 13, 2018
Publication Date: May 9, 2019
Applicant: LMK Technologies, LLC (Ottawa, IL)
Inventors: Larry W. Kiest, JR. (Ottawa, IL), Jason M. Mathey (Oglesby, IL)
Application Number: 16/130,625