Dispense for applying an adhesive to remote surface

Information

  • Patent Grant
  • 12007213
  • Patent Number
    12,007,213
  • Date Filed
    Tuesday, June 30, 2020
    4 years ago
  • Date Issued
    Tuesday, June 11, 2024
    6 months ago
Abstract
A dispense for dispensing an adhesive onto a remote surface, such as a case mouth and primer ammunition. The dispense includes a reservoir containing an adhesive; a positive displacement pump; and a nozzle having a tapered tip. The positive displacement pump delivers a predetermined amount of the adhesive, preferably an anaerobic adhesive, from the reservoir to the nozzle at predetermined intervals. The nozzle discharges the predetermined amount of adhesive through the air and at least 1/16-inch onto the remote surface.
Description
FIELD OF THE INVENTION

The present invention is a dispense for applying an adhesive material to a remote surface. In particular, the present invention relates to a dispense for applying adhesive material to a case mouth and primer of an ammunition round that projects the adhesive through the air.


BACKGROUND OF INVENTION

Dispensing adhesives onto surfaces without contacting the surface with the tip of the dispense nozzle is difficult because of the characteristics of the adhesives, in particular the low viscosity and the tendency for the adhesive to cure on/in the tip of the nozzle. One application where the application of an adhesive to a surface has been difficult is the case mouth of an ammunition round. Various methods and apparatus have been developed for applying sealant materials to the inside of the case mouth of cartridge cases. The sealant is used to help prevent moisture from getting inside the cartridge case and improves the performance of the bullet in outdoor environments, while also increasing the storage life. The types of sealant material used and the manner in which they are applied affect how the bullet is secured to the cartridge case. The bullet must be securely held in the case mouth of the cartridge case so that it does not fall out during manufacture or when being used and the seal must isolate the interior of the cartridge case from the exterior environment. Preferred sealants provide effective sealing properties and provide sufficient, but not excessive, adhesion between the bullet and the case mouth of the cartridge case.


In the past, the case mouths of cartridge cases have been sealed to prevent moisture infiltration around the bullet by applying a sealant to the inside of the case mouth before beginning other loading operations. Traditionally, the preferred sealant was a black asphaltic tar. It was applied wet and set aside for drying and curing. Once the sealant dried, the frictional heat from seating the bullet partially re-melted the tar, ensuring a good seal. However, this method was time consuming, did not allow high throughputs, and after application the sealant has a short work life, meaning projectiles had to be assembled with a pre-set time or they would not seal.


There is no proven method in the prior art for applying an anaerobic adhesive to an ammunition case mouth and primer. Various attempts have been made to use touch transfer dispensing methods to apply the sealant to the case mouth. However, touch transfer has not been found to be an optimal method for several reasons. First, when dispensing on the primer, the dispense must be carried out with the bullet in a horizontal position. This requires a mechanism that slides in and out as the bullet passes by on a conveyor and greatly reduces throughput potential. Second, anaerobic adhesives begin to cure when they contact metal. Thus, anaerobic adhesives used with a touch transfer method begin to cure when the dispense tip contacts the active metals (i.e., brass and copper) of the bullet. This reduces throughput and current touch transfer methods typically produce no more than 200 rounds per minute. Accordingly, there is a need for a dispense system with increased throughput, wherein the adhesive does not contact the bullet when the adhesive is in the dispenser.


SUMMARY OF THE INVENTION

In accordance with the present invention, a dispense for dispensing an adhesive onto a remote surface is provided. The dispense includes a reservoir containing an adhesive; a positive displacement pump; and a nozzle having a tapered tip. The positive displacement pump delivers a predetermined amount of the adhesive, preferably an anaerobic adhesive, from the reservoir to the nozzle at predetermined intervals. The nozzle can have at least a 27 gauge discharge port for discharging the predetermined amount of adhesive through the air and onto the case mouth and primer ammunition. Preferably, the distance between the discharge port of the nozzle and the surface is at least 1/16-inch. The positive displacement pump is preferably a rotary pump and operates at a speed of from 1,400 to 1,500 rpm.





BRIEF DESCRIPTION OF THE FIGURES

The preferred embodiments of the dispense of the present invention, as well as other objects, features and advantages of this invention, will be apparent from the accompanying drawings wherein:



FIG. 1 is a side view of the dispense being used to seal a case mouth and primer ammunition round.



FIG. 2 is a sectional view A-A of the dispense shown in FIG. 1.



FIG. 3 is a side view of a preferred nozzle for discharging the adhesive with a tapered tip needle, which is used with the dispense shown in FIG. 1.





DETAILED DESCRIPTION OF THE INVENTION

The present invention is a dispense (also interchangeably referred to herein as “the dispense” or “the dispense system”) used for dispensing of adhesives, preferably light curing anaerobic adhesives having viscosities of 30-45 cps, onto remote surfaces. As used herein, the term “remote surfaces” refers to any surface not in contact with the dispense that can be bonded to another surface by an adhesive, wherein the surface can include metal, plastic, wood and synthetic and composite materials. The dispense system preferably dispenses an anaerobic sealant or adhesive (e.g., Loctite® 190700 CMS) onto a remote surface. In preferred embodiments, the anaerobic sealant is dispensed onto the surface of a case mouth and primer ammunition round. Anaerobic adhesives begin to cure when they come in contact with a metal and the absence of air. The dispense “shoots” adhesive approximately 1/16″ from the discharge port in the nozzle tip to the remote surface without the nozzle tip contacting the remote surface, preferably the case mouth and the primer of the bullet. This dispense uses a rapid fire through the air technique that overcomes the problems encountered by touch transfer dispenses, wherein the tip contacts the surface. By “shooting” the adhesive through the air, the dispense system eliminate the potential to contaminate the dispense tip by eliminating contact of the tip with active metals on the surface.


The dispense system includes an adhesive, a first conduit for supplying the adhesive to a pump and a second conduit connecting the pump discharge to a nozzle through which the adhesive is dispensed. The adhesive can be stored in a reservoir or a cartridge and delivered to the pump using well known methods, such as pressurizing the reservoir/cartridge to force the adhesive to flow to the pump or using a plunger/rod assembly to push the adhesive out of the reservoir/cartridge. The pump delivers a predetermined amount of adhesive to the nozzle with sufficient pressure so that, when the adhesive exits the nozzle, it travels through the air and onto the bullet. The nozzle preferably has a tapered needle tip that provides back pressure and helps to direct the adhesive. The discharge port of the tapered needle tip has a diameter of 25 gauge or larger, preferably about 27 gauge. The tapered tip needle has been found to provide more accurate and reliable dispensing.


The pump is preferably a positive displacement pump that can be adjusted to discharge specific volumes of adhesive according to the user's application. Positive displacement pumps are well known to those skilled in the art and they deliver a definite volume of liquid for each cycle of pump operation. This volume is constant regardless of the resistance to flow offered by downstream components in the system up to the rated capacity of the pump. A positive displacement pump cyclically delivers liquid in separate volumes with no delivery in between. This allows the cycles to correspond to the bullets that are sequentially placed in front of the nozzle. As the pump shaft rotates, a notched portion of the pump head displaces the fluid from one side of the pump to the other. This motion is what shoots the adhesive through the air and onto the bullet.


The positive displacement pump operates at speeds of from 0 to 1,500 rpm, preferably 1,200-1,500 rpm and most preferably between 1,400 and 1,500 rpm. The most preferred positive displacement pumps for the dispense system are rotary positive displacement pumps. The dispense system of the present invention can increase throughput from about 200 rounds per minute for prior art methods to about 400 rounds per minute using a single dispense.


The dispense system deposits an anaerobic adhesive onto a bullet without the dispense tip contacting the remote surface. This eliminates the problems in the touch transfer method caused when the adhesive began to cure upon contacting a metal surface, such as the surface of an ammunition round. Instead, the dispense tip is positioned a distance from the surface and shoots adhesive through the air (about 1/16″ or more) from the tip to the bullet case mouth and primer. This eliminates the need for a mechanism that slides in and out and provides increased throughput potential. When dispensed onto an ammunition round, the anaerobic adhesive travels through the air and contacts either the case mouth or primer and wicks around the surfaces. Because the tip of the dispense nozzle does not contact the bullet, the adhesive does not begin to cure and clog the dispense tip due to contact with active metals. This allows the dispense system to operate at high speeds of up to 400 parts per minute.


Referring now to the figures, FIG. 1 shows a side view of the dispense system 10, which includes a positive displacement pump 12, a nozzle 14, a pressurized reservoir containing the adhesive 16, and connecting tubing 18, 20. The adhesive flows from the reservoir 16 under pressure to the rotary pump 12, which delivers the adhesive to the nozzle 14 at predetermined intervals in predetermined amounts. The adhesive is discharged from the nozzle 14 through the air and onto a bullet 90. FIG. 2 is a sectional view A-A of the dispense system 10 shown in FIG. 1 and it shows the pump shaft linkage 22 that connects to a motor. FIG. 3 is a side view of a preferred nozzle 14 with a tapered tip needle used with the dispense shown in FIG. 1. The nozzle 14 has a tapered tip 24 with a discharge port 26, which provides a back pressure and improves the accuracy of the adhesive deposited on the bullet 90.


EXAMPLES

The examples set forth below serve to provide further appreciation of the invention but are not meant in any way to restrict the scope of the invention.


Example 1

An ammunition customer would like to dispense anaerobic onto ammunition case mouth and primer at a rate of 400 bullets per minute with few dispensing points as possible. Touch transfer simply is not fast enough. The dispense system is used to dispense adhesive through the air (i.e., “shooting”) onto the bullet, which allows the customer to gain the required process speed. The dispenser is capable of dispensing at a rate of 400 bullets per minute using 1 dispense point.


Example 2

A customer wishes to positively dispense anaerobic adhesive onto the case mouth or primer of a round. Current methods for dispensing onto ammo rounds are based on pressure timed system dispense, which is rate limiting and accuracy limiting. The dispense system uses a positive displacement pump to dispense a predetermined amount of adhesive onto the case mouth and satisfy the customers requirements.


Example 3

The dispense system eliminates touch transfer from the dispense method and reduces the potential for the dispense tip to clog/cure over time as the adhesive contacts the metal of the bullet.


Thus, while there have been described the preferred embodiments of the present invention, those skilled in the art will realize that other embodiments can be made without departing from the spirit of the invention, and it is intended to include all such further modifications and changes as come within the true scope of the claims set forth herein.

Claims
  • 1. A method for dispensing an adhesive onto a surface, steps of which comprise: providing a reservoir containing an adhesive;providing a pump to deliver a predetermined amount of adhesive dispensed from the reservoir at predetermined intervals;providing a nozzle having a tapered tip to receive the adhesive and discharge the adhesive onto the surface;providing a first conduit for directly connecting the reservoir and the pump such that the adhesive is supplied directly from the reservoir to the pump; andproviding a second conduit for directly connecting the pump and the nozzle such that the adhesive is supplied directly from the pump to the nozzle; anddischarging the adhesive from the tapered tip of the nozzle through the air onto the surface in a non-touch transfer manner;wherein the number of predetermined intervals is greater than 200 per minute;wherein the adhesive in the reservoir is an anaerobic adhesive; andwherein the surface is a case mouth and primer ammunition round.
  • 2. The method according to claim 1, wherein the adhesive in the reservoir is light curable.
  • 3. The method according to claim 1, wherein the adhesive has a viscosity of 30-45 cps.
  • 4. The method according to claim 1, wherein the tapered tip is 1/16″ or more from the surface while the adhesive is being discharged.
  • 5. The method according to claim 1, wherein the nozzle having a tapered tip is configured to receive the adhesive and discharge the adhesive onto the surface without the tapered tip of the nozzle contacting the surface.
  • 6. The method according to claim 1, wherein the tapered tip of the nozzle has a circular discharge port.
  • 7. The method according to claim 6, wherein the circular discharge port of the tapered tip of the nozzle has a diameter of at least 27 gauge.
  • 8. The method according to claim 1, wherein the number of predetermined intervals is 400 per minute.
  • 9. A method for dispensing an adhesive onto a remote surface, steps of which comprise: providing a dispenser comprising: a reservoir containing a liquid adhesive, a pump, anda nozzle having a tapered tip;delivering a predetermined amount of the liquid adhesive from the reservoir to the nozzle at predetermined intervals;discharging the predetermined amount of adhesive through the air onto the remote surface in a non-touch transfer manner;providing a first conduit for directly connecting the reservoir and the pump such that the adhesive is supplied directly from the reservoir to the pump; andproviding a second conduit for directly connecting the pump and the nozzle such that the adhesive is supplied directly from the pump to the nozzle;wherein the number of predetermined intervals is greater than 200 per minute;wherein the adhesive in the reservoir is an anaerobic adhesive; andwherein the remote surface is a case mouth and primer ammunition round.
  • 10. The method according to claim 9, wherein the adhesive has a viscosity of 30-45 cps.
  • 11. The method according to claim 9, wherein the tapered tip is 1/16″ or more from the remote surface while the adhesive is being discharged.
  • 12. The method according to claim 9, wherein the discharging of the predetermined amount of adhesive through the air onto the remote surface is performed without the tapered tip of the nozzle contacting the remote surface.
  • 13. The method according to claim 9, wherein the tapered tip of the nozzle has a circular discharge port.
  • 14. The method according to claim 13, wherein the circular discharge port of the tapered tip of the nozzle has a diameter of at least 27 gauge.
  • 15. A dispenser for dispensing an adhesive onto a surface, the dispenser comprising: a reservoir containing a flowable adhesive;a pump for supplying a constant volume of said adhesive;a nozzle having a tapered tip, the tapered tip having a discharge port, wherein when dispensing the pump delivers a predetermined amount of the flowable adhesive from the reservoir to the nozzle at predetermined intervals, and wherein the nozzle is not in contact with the surface and discharges the predetermined amount of adhesive onto the surface in a non-touch transfer manner;a first conduit for directly connecting the reservoir and the pump such that the adhesive is supplied directly from the reservoir to the pump; anda second conduit for directly connecting the pump and the nozzle such that the adhesive is supplied directly from the pump to the nozzle;wherein the number of predetermined intervals is greater than 200 per minute;wherein the adhesive is an anaerobic adhesive;wherein the surface is a case mouth and primer ammunition round.
  • 16. The dispenser according to claim 15, wherein the pump is a rotary pump.
  • 17. The dispenser according to claim 15, wherein the discharge port of the tapered tip of the nozzle is a circular discharge port, and wherein the circular discharge port of the tapered tip of the nozzle has a diameter of at least 27 gauge.
  • 18. The dispenser according to claim 15, wherein the pump operates at a speed of from 1,400 to 1,500 rpm.
  • 19. The dispenser according to claim 15, wherein the distance between the discharge port and the surface is at least 1/16-inch.
US Referenced Citations (69)
Number Name Date Kind
1400034 Dilley Dec 1921 A
1566591 Goldsmith Dec 1925 A
1871291 Adams Aug 1932 A
2731173 William Jan 1956 A
3118610 Techler Jan 1964 A
3323681 Di Vette Jun 1967 A
3543968 Baker Dec 1970 A
4084729 Epple Apr 1978 A
4166579 Beise Sep 1979 A
4176793 Heinrich Dec 1979 A
4245759 Baker Jan 1981 A
4564410 Clitheros Jan 1986 A
4699575 Geisel Oct 1987 A
4773566 Hoagland Sep 1988 A
4787332 Geisel Nov 1988 A
4858172 Stern Aug 1989 A
5000351 Rudick Mar 1991 A
5256203 Moore Oct 1993 A
5263608 Kiernan Nov 1993 A
5303141 Batchelder Apr 1994 A
5505777 Ciardella Apr 1996 A
5525515 Blattner Jun 1996 A
5558504 Stridsberg Sep 1996 A
5599394 Yabe Feb 1997 A
5720820 Boger Feb 1998 A
5803313 Flatt Sep 1998 A
6206963 Abrahams Mar 2001 B1
6223950 Lasko May 2001 B1
6375094 Schroeder Apr 2002 B1
6401002 Jang Jun 2002 B1
6415958 Donley Jul 2002 B1
6431468 Brown Aug 2002 B1
6460464 Attarwala Oct 2002 B1
6561607 Lubinsky May 2003 B1
6713021 Shvets Mar 2004 B1
6932870 Gunn Aug 2005 B2
D545943 Rodgers Jul 2007 S
7396512 DiTrolio Jul 2008 B2
7785673 Lasko Aug 2010 B2
8029744 Noda Oct 2011 B2
8087429 Cedrone Jan 2012 B2
8210450 Zeinstra Jul 2012 B2
8225964 Clark Jul 2012 B2
8292598 Laverdiere Oct 2012 B2
8708253 Hilfiker Apr 2014 B2
9085002 Zimmerman Jul 2015 B2
9296010 Watanabe Mar 2016 B2
9314812 Clark Apr 2016 B2
10190857 Burrow Jan 2019 B2
10365074 Burrow Jul 2019 B2
20040265185 Kitagawa Dec 2004 A1
20050056183 Meshirer Mar 2005 A1
20070006904 Hagiwara Jan 2007 A1
20070049920 McClurken Mar 2007 A1
20070145164 Ahmadi Jun 2007 A1
20080302833 Thibodeau Dec 2008 A1
20090065532 Lafond Mar 2009 A1
20090101669 Hassler, Jr. Apr 2009 A1
20090157075 Wham Jun 2009 A1
20090283551 Eschenburg Nov 2009 A1
20100279127 Ukai Nov 2010 A1
20110315232 Crowell Dec 2011 A1
20120296325 Takashino Nov 2012 A1
20120330310 Takashino Dec 2012 A1
20130006227 Takashino Jan 2013 A1
20140209630 O'Leary Jul 2014 A1
20160153602 Ahuja Jun 2016 A1
20160175878 Belanger Jun 2016 A1
20160179107 Pemberton Jun 2016 A1
Non-Patent Literature Citations (1)
Entry
Conduit Definition of Conduit by Merriam-Webster.
Related Publications (1)
Number Date Country
20200333120 A1 Oct 2020 US
Provisional Applications (1)
Number Date Country
61701139 Sep 2012 US
Divisions (2)
Number Date Country
Parent 16450255 Jun 2019 US
Child 16916553 US
Parent 13963716 Aug 2013 US
Child 16450255 US