AU7938701A - Automatic veterinary medicament delivery system - Google Patents

Description

Our Ref:7646090 P/00/011 Regulation 3:2

AUSTRALIA

Patents Act 1990

ORIGINAL

COMPLETE SPECIFICATION STANDARD PATENT r Documents received on: 1 5 OCT 2001 bIz' h No: Applicant(s): Eidson Associates, Inc PO Box 16204 Mineapolis Minnesota 55415 United States of America Address for Service: Invention Title: DAVIES COLLISON CAVE Patent Trade Mark Attorneys Level 10, 10 Barrack Street SYDNEY NSW 2000 Automatic veterinary medicament delivery system The following statement is a full description of this invention, including the best method of performing it known to me:- 1 AUTOMATIC VETERINARY MEDICAMENT DELIVERY SYSTEM 2 by 3 Wilbur L. Eidson and Jon Mathisrud 4

BACKGROUND

This invention relates to veterinary delivery devices for delivering medicaments, including 6 pharmaceuticals or vaccines, to a plurality of poultry or other animals. In particular, this invention 7 relates to a portable, electrically powered veterinary delivery system for reliably providing a precise 8 amount of pharmaceuticals, or vaccine, rapidly to a plurality of fowl, porcine, ovine or other animals.

9 Injection devices are known in the art. Numerous injection devices have been provided in prior art that are adapted to include a manually operated plunger. A hand-held syringe, having a 11 barrel and manually operated plunger, has been used to administer vaccines, antibiotics and other 12 biological products. A problem with this device and method is that the accuracy of the dose is '13 dependent on the manual strength and attention of the operator. When injecting large numbers of birds or other animals, the operator's hands become fatigued resulting in inaccurate doses being delivered to the bird or other animal being injected. An additional problem has been accidental injury S16 to the operator as a result of either movement of the bird or other animal during the injection process oooo 17 or lack of lighting present at the barn or other injection locale. Injection into a human of veterinary .0.18 products can cause permanent injury that may even result in amputation. Identifying which birds or other animals have been injected within a flock or herd has also been a problem.

While these units may be suitable for the particular purpose which they address, they would 1 not be as suitable for the purposes of the present invention as hereinafter described.

22

SUMMARY

23 The present invention is directed to an automatic veterinary medicament delivery system that 1 satisfies these needs for delivery of precise amounts of medicament to an individual animal or fowl.

2 The medicament includes any fluid products for immunizing purposes or for treatment. The system 3 provides rapid and consistent one-handed administration ofthe medicament, without fatigue-affected 4 changes in the amount of medicament delivered, to large numbers of fowl, porcine, ovine, or other animals. An automatic veterinary medicament delivery system having features of the present 6 invention comprises an electronic control unit having means for quickly adjusting the dosage of 7 medicament to be delivered by injection. The veterinary delivery system includes several hand-held 8 injection devices from which to choose, depending on desired use, each having a push-button trigger, 9 at least one needle, a headlight, signal lights, optional dye marking means, and an optional mixing chamber for mixing medicaments at the time of delivery of the medicament, the hand-held injection 11 devices being easily connected and disconnected by means of quick connect fluid couplers for being 12 in fluid communicationwith the system and a nine-pin amp electrical connector for being in electronic 13 communication with the control unit. One embodiment hand-held unit provides a single needle for 14 injecting especially the ear of cattle. Another embodiment hand-held unit provides a single needle plus marking means. A third hand-held unit provides two needles for injecting two unmixed 16 medicines simultaneously. A fourth hand-held unit provides a single needle, but the hand-held unit is inverted with a pistol grip attached for use especially with thick-skinned animals, such as cattle or 8 pigs. All of these hand-held units provide means to deter self-injection of the user. In some hand- 1:9 held units, this safety device is in the form of an emergency stop button. In the fourth hand-held unit, S2o a safety interlock is provided that prevents injection until a retractable resilient member is forced to 21 a second, retracted position, to complete an electrical circuit permitting injection to take place. In 2 all of these delivery systems, a source of fluid medicament, tubing interconnecting the injection device and the medicament, an electrically powered pump in fluid communication with both the 24 injection device and the medicament, actuation means for activating a pump forcing the medicament £5 through the tubing from medicament source to the injection device for dispensing, are provided. A 26 quick connect fluid coupler permits coupling of each hand-held unit to the pump. A nine-pin amp 7 electrical connector connects the electrical power portion of each hand-held unit to the control unit.

0: 2.8 Also, a convenient carrying system is provided. Optional means for marking injected animals are also 29 included. Methods for administering two medicaments simultaneously are also provided.

1 Manually depressing a trigger on the hand-held injection device of this delivery system, in 2 conjunction with inserting a needle into the subject body, actuates the pump causing fluid to flow 3 through the hollow needle accomplishing an injection. An emergency stop button is provided in case 4 an error is made, ex. the needle goes through the ear, or through the ear and into the user's hand, to prevent injection of a medicament into the user. This is an important deterrent to self-injection. An 6 additional embodiment provides a safety interlock member which must be depressed to the needle hub 7 to close the electrical switch which in turn actuates the pump causing fluid flow through the hollow 8 needle only when the needle is fully injected actuates an injection. This safety interlock is adjacent 9 to the needle and positioned to extend to the length of the needle. This safety interlock is then depressed to the point adjacent to the needle hub as the needle is inserted. At this juncture, an 11 internal extended rod from the safety interlock closes the electrical circuit by means of a Hall-effect 12 switch. Thi~'in turn, actuates the pump to cause fluid flow through i& needle. This feature also 13 deters accidental self-injection. Injection cannot take place until the:needle is fully inserted, thus 14 enabling the operator to withdraw an accidental stab prior to injection taking place. The goal of both of the systems is operator safety. Self-injection is a very serious accident among vaccinating crews.

16 The delivery system includes a means of marking, by automatically pressing an applicator pad 17 containing a pre-measured amount of dye pumped into it, in order to prominently and automatically 1 mark each treated animal adjacent to the injection site.

The delivery system is powered by a compact, rechargeable 12-volt battery or 110 volt AC/ 12 volt DC converter for sustained operation reducing fatigue and the likelihood of repetitive stress 21 injury to the operator, although other electrical mans could be used..

2.2 The delivery system includes a self-priming peristaltic pump for delivery of a consistent amount of medicament. The pump also reverses to retrieve unused medicament upon completion of 24 each injection chore. The use of a peristaltic pump permits the system to be valve-free.

The delivery system has an optional head lamp at the injection site for greater safety and S26 accuracy of injection. The delivery system includes a green LCD on the handle to indicate that an .27 injection is in progress. A red LCD on the handle indicates the medicament fluid is low.

The delivery system also includes an automatic counter to record and total the numbers of 29 injections.

1 The delivery system also includes an optional mixing tube to combine medicaments.

2 The delivery system also includes a cleaning process to clean the tubing of the delivery system 3 following each job. To accomplish cleaning, the pump switch on the face of the control unit is set 4 to "forward" in order to circulate cleaning/sanitizing solutions for effective "clean in place".

The system is enclosed in a back-pack or box, which protects it from dirt and dust and also 6 provides a convenient place to store and transport the component parts.

7 It is the general object ofthe present invention to provide a novel and improved multiple dose 8 veterinary delivery system that provides a precise dosage to a plurality of animals without requiring 9 frequent refilling of the system between administrations of medicament to a plurality of animals.

A further object is to provide a veterinary delivery system which can be manipulated with one 11 hand freeing up the second hand of the user to hold onto the subject animal for injection. 12 It is a further object to provide a- veterinary medicament delivery system which ensures 13 administration of precise amount of a medicament to the animal.

14 It is a further object of the invention to provide a veterinary delivery system that uses a selfpriming pump.

16 It is a further object of the invention to provide a veterinary delivery system that eliminates S7 waste of medicament and that provides an accurate count of doses delivered.

S. .1.8 Another object is to increase the safety features of such an injection system by reducing the 91 hazard of self-inoculation of the operator. A further object is to provide an easily transportable 2:0 injection system.

S21 Other objects and advantages will become apparent from the following detailed description 2.2 and accompanying drawings.

2"3 BRIEF DESCRIPTION OF THE DRAWINGS "4 Understanding of the invention will be enhanced by referring to the accompanying drawings, 5 in which like numbers refer to like parts in the several views and in which: .6 Fig. 1 is a plan view of the medicament delivery system of the current invention; 27 Fig. 2 is a perspective view of the first embodiment hand-held unit of the medicament 1 delivery system of Fig. 1; 2 Fig. 3 is a side view of a hand-held unit of the medicament delivery system of Fig. 2; 3 Fig. 4 is a side perspective view of a second embodiment hand-held unit of the medicament 4 delivery system of Fig.1; Fig. 5 is an end view of a third embodiment pistol grip hand-held unit; 6 Fig. 6 is a perspective view the control unit of the medicament delivery system of Fig. 1; 7 Fig. 7 is a perspective view of the interior of the control unit of Fig. 6; 8 Fig. 8'is a plan view of the second embodiment hand-held unit where two medicaments are 9 pumped through two pumps simultaneously at the same rate; Fig. 9 is a plan view of the second embodiment hand-held unit where two medicaments are 11 pumped through two separate control units at differing rates; 12 Fig. 10 is a plan view of the medicament mixing tube; 13 Fig. 11 is a side view of the third embodiment pistol grip hand-held unit; 14 Fig. 12 is a plan view of the fourth embodiment hand-held unit where one medicament is injected and a dye pad applicator is present; and 16 Fig. 13 is a side view of the fifth embodiment, pivoting hand-held unit, with certain portions :*l7 shown in cross-section.

S19 DETAILED DESCRIPTION OF THE CURRENTLY PREFERRED EMBODIMENTS Understanding of the invention will be further enhanced by referring to the following .2L illustrative but non-limiting example.

The term "medicaments" is intended to include serum, vaccine, antibiotics, and any other fluid 23 products that may be used for immunizing or for treating poultry, bovine, ovine, porcine or other animals.

OVERVIEW

*2.6 Turning now to the drawings, in which like reference characters refer to corresponding :.27 elements throughout the several views, Fig. 1 illustrates an electrically powered automatic veterinary 28 medicament delivery system, shown generally at 20. System 20 is housed in a container such as a 1 back pack and includes a hand-held unit 40 in fluid communication, by means of conduit tubing 2 tubing 78, with a medicament container 70. A first embodiment hand-held unit 40, single needle 3 56, no dye means, is especially for use in injection of a medicament into the ear of a bovine. All of 4 the hand-held units 40 have a generally cylindrical shape with a flattened surface 41 on which, in embodiments one through three, are mounted both a trigger 42 and an emergency stop 44 button.

6 The fourth embodiment also has a trigger but no emergency stop. Also shown are a green LCD 48, 7 which lights to indicate an injection is in progress, and a red LCD 50 which lights to indicate that 8 the medicament level is low. The "function" key pad 108 is touched on the control unit 110 to set 9 the anticipated number of total count so that the low medicament bottle LCD lights up at the appropriate time, ex. when 90% of the doses have been given. Head lamp 46 is used to illuminate: 11 the area of injection; as well as an optional dye pad 172 along with the needle mount 58, in actual use, 12 a Luer lock, all motinted on a proximal surface 22 of the hand-held unit Entering this distal- 13 end 24 of hand-held unit: 40"' is. tubing 82 containing medicament 84, dye 86 and electrical power 14 cords 88. All of the various hand-held unit embodiments 40, 40', 40", 40"' 40"" look and work similarly. A pump 100, which sits.atop a control unit 110, sucks up the medicament from 16 within medicament container 70 through tubing 80 and forces the fluid medicament from pump 100 exiting through tubing 82 and continuing through conduit tubing 78 for delivery by the hand-held unit 40 through a hollow needle 56. The control unit 110 utilizes an electronic dosage control 130, 1 b shown in detail in Fig.7, to deliver a predetermined precise amount of medicament upon injection.

2b Additionally, the electronic dosage control 130 provides means of changing the dosage of these 21 predetermined precise amounts of medicament. Control unit 110 also provides optional marking means. Marking dye, in an optional embodiment shown at Figs. 5, is delivered through dye 2'3 means, such as by an applicator pad 172, simultaneously with injection of the medicament, marking 2 4 the individual poultry, porcine, ovine or other animal injected. Control unit 110 function key pad 108 has an on/off control of dye means. Control unit 110 also provides for counting the number of 2 6 injections made.

In all of the disclosed embodiments, fluid from more than one medicament container 70 can 23 be injected simultaneously through their respective tubing 80, the medicaments forced by the pump 29 100, through an optional mixing tube 190, shown in detail in Fig. 10, intermixing the two 1 medicaments prior to their being injected through the selected hand-held unit 40, 40', 40", 40"' 2 Additionally, in all of the embodiments, fluid from more than one medicament container 3 70' can be injected simultaneously. Where different dosages are needed, two control units 110, 110' 4 with the associated pumps 100, 100' can be connected up to a single hand-held unit 40, 40', 40" 40"" for simultaneous injection, either after mixing the medicaments and injected through hand-held 6 unit 40 40" and or when the medicaments cannot be mixed for whatever reason, by injecting 7 simultaneously through two needles through hand-held unit 40' as shown in Fig. 4. Once the 8 requirements are determined,, which medicaments are to be injected, can they be nmixed, if not, are 9 they administered at the same,dosage, the appropriate hand-held unit 40, 40', or 40'" is selected and electronically connected to control unit 110 by the Amp connector 94, attachedto the end of conduit S11 tubing 78 and in fluid communication by means of a quick connect fluid connector 196 at ,the end of 12 each tubing 82, 76,. If the medicaments may be mixed, the mixing tube 190 must be attached to the 13 tubing 82 by quick connect fluid couplers 196. Quick connect fluid couplers 196 are also mounted 14 on pump100 to attach tubing 80 to medicament container 70. If niore than one pump is needed but the medicament to be administered can be given at the same dosage, then a two pump system 100, 16 100', such as shown in Fig. 8, is used. Either hand-held unit 40 or 40' or 40"' may be used. When o 7 the medicament to be administered is not ofthe same dosage, and cannot be mixed, then two control units 110, 110' must be used, such as shown in Fig. 9, then hand-held unit 40" is selected and 9 connected to both control units 110,110' by means of conduit tubings 78, 78'. A nine-pin amp 2'0 connector 94 connects the electronic control unit 110 to any of the hand-held units 40. A four-pin 21 amp connector 122 connects the electronic control unit 110 to the dye pump. Another four-pin amp connector 124 connects the control unit 110 to the battery 126. These different types of amp ,3 connectors protect against accidental connection of the wrong device to the outlet at the control unit 24 110.

The control unit 110 sets the dosage, the injection count, the anticipated number of total too*.: 26 count so that the low medicament bottle LCD lights up at the appropriate time, and optional marking dye by means of touching the display LCD for each function, by pushing the "Function" keypad 108 and using the up and down arrows 106 to select the appropriate choice, dose, injection 29 count, low bottle warning and marking dye.

1 As shown in Fig. 1, the electrically powered automatic veterinary medicament delivery system 2 is set for injecting ears of cattle. While the hereinafter described safety interlock could be added to 3 this hand-held unit 40, it is not felt to be necessary when injecting ears of cattle. The ears are 4 injected, by the way, to prevent damage to an edible portion of the cattle.

The power source for running any embodiment of this system is a re-chargable battery 6 although plugging into the circuitry of the barn or other housing could be used.

7 Fig. 2 is a side perspective view of second embodiment hand-held unit 40' of the medicament 8 delivery system 20, having a single needle 56 and dye pad applicator 172. In this view, hand-held unit S9 40' has a generally cylindrical shape with a flattened dorsal surface 41 on which are mounted both a trigger 42 and an emergency stop 44 button. Also shown are a green LCD 48, which lights to.

11 indicate an injection is in progress, and a red.LCD 50 which lights to indicate that the medicament: 12 level is low. The "function" key pad is touched on the control unit 110 to set the anticipated 13. number of total count so that the low medicament bottle LCD lights up at the appropriate time, ex.

14 when 90% of the doses have been given. Head:lamp 46 is used to illuminate the area of.injection, as well as an optional dye pad 172 along with the needle mount 58, in actual use, a Luer lock, all 16 mounted on a proximal surface 22 of the hand-held unit 40'. Entering this distal end 24 of hand-held unit 40' is tubing 82 containing medicament 84, dye 86 and electrical power cords 88. This hand-held 8 unit 40' is especially for use in injection of a medicament into a bovine at a point other than the ear.

1 Marking means conspicuously mark the animal as it is injected. Quick connect fluid couplers 196 are 2) mounted on the terminal ends of both medicament tubing 82 and dye tubing 86 to permit quick, 21 convenient connection of this particular hand-held unit 40" to control unit 110.

Fig. 3 is a side view of the hand-held unit 40' of the medicament delivery system of Fig. 2 29 showing an additional light 52 indicating that an injection is in progress.

24 Fig. 4 is a side perspective view of a third embodiment hand-held unit 40"of the medicament '25 delivery system of Fig.1. This embodiment has the same general shape as the first embodiment, 2 6 namely hand-held unit 40" having a generally cylindrical shaped body with a flattened dorsal surface i.:'27 41 on which are mounted both a trigger 42 and an emergency stop 44 button. This embodiment *:"213 adds a second needle 56' and needle mount 58' Luer lock to the proximal surface of the hand-held 29 unit 40". Although the optional dye applicator pad is not shown, it will be understood that this dye 1 applicator pad is an option on all of the hand-held units. Also not shown in this view but understood 2 to be mounted on the hand-held unit 40" is an additional light indicating that an injection is in 3 progress similarly to light 52 in Fig. 3. Two needles 56, 56' are needed with this embodiment 4 because two medicaments that may not be mixed are being injected, as indicated by the two medicament tubings 82, 82'. Quick connect fluid coupleres 196 are mounted on the terminal ends 6 of both medicament tubings 82, 82' and dye tubing 86, 86' to permit quick, convenient fluid: 7 connection of this hand-held unit 40" to control unit 110. If the dosage is the same for both 8 medicaments, a second pumplO0' can be mounted atop the first pump 100, as shown in Fig. 8, 9 connected to a hand-held unit 40". The two pumps, 100, 100' piggy-backed atop the other, are interconnected by an drive shaft 134 whereby the pumps turn at the same rate of speed delivering 11- identical amounts of medicament. If, however, different dosages of the two medicaments is needed, 12 dueto differences in viscosity or potency, or the like, two control units, 110, 110' would be needed, 13 as shown in Fig. 9. The tubing from both units would be combined so only one hand-held unit 40" 14 is needed. Although only one processing of the subject animal occurs, two injections of different un-mixed medicaments are given simultaneously to the same subject animal.

.16 Fig. 5 is an end view of a fourth embodiment hand-held unit 40"' which has a pistol grip 1.'Z In this embodiment, the generally cylindrically shaped hand-held unit 40"' is basically turned upside down so that the flattened surface is on the ventral side. The trigger 42 is mounted on the front S'19 surface of the pistol grip 30 for convenience of the user. This embodiment has the same elements 0 on the proximal surface 22, namely a needle mount 58, a hollow needle 56, an optional dye means 21 170, with associated dye tubing 86, and headlight 46. Added to this embodiment is safety interlock ,22 150 which consists of a solid member 152, which when forced by contact with the subject animal skin, from a first, extended position, to a second retracted position in alignment with the proximal 24 surface 22, releases the needle mount to allow injection to occur. The safety interlock 150 is designed to prevent accidental injection of the human user of the system. Accidental injection of o 26 certain veterinary products can cause severe injury of the area accidentally injected. Mounted on 2: o hand-held injection device 40"' is solid member 152, a solid member preferably of plastic, which in *E I its first position, extends at least as far as the tip of needle 56. Solid member 152 is urged to a second 29 position, pushed to the tip of the needle hub 57, as indicated by arrow in Fig.11, when the needle 56 1 and therefore the solid member 152 comes into contact with the body of the poultry or other animal.

2 When solid member 152 is biased to the second position, it completes the electrical circuit and 3 actuates the pump 100 which permits an injection to take place. This built-in safety device deters 4 accidental, and severely injurious, self-injection. Needle 56 is replaceable. When needle guard solid member 152 reaches a second position, it actuates a Hall-effect switch, such as made by Allegra 6 Corp, of Worchester, Mass., internal of the hand-held injection device 40, 40', 40" which controls 7 administration. This Hall-effect switch, shown at 31 in Fig. 13, is wired in conjunction with the 8 trigger 42 on the hand-held injection device 40", making it necessary for the trigger 42 to be 9 depressed in order for the switch at the solid member 152 to work. This feature adds materially to the safety and reduced fatigue of the operator, as.well as the speed of operation since the operator 11 can depress the trigger 42 constantly allowing injection to occur automatically and as quickly as solid 12 member 152 is depressed.

13 Trigger 42 is in electrical communication with pump 100. In the fourth embodiment of 14 hand-held injection device 40"' trigger 42 must be depressed, and the needle 56 must be fully inserted, to complete the electrical circuit in the Hall effect switch which actuates the pump 100 and 16 results in an injection. This hand-held injection device 40"' has a safety interlock 152. The-other i,.17 embodiments, 40, 40'& 40" have an emergency stop button 44, although a safety interlock 152 could "'1l be used on all embodiments. At this time, a safety interlock is not deemed necessary on hand-held S-1.19 injection device 40 because it is primarily used on the ears of cattle where the needle is parallel to the 20 ear. A safety interlock would not have any animal body part to urge the interlock to it's second, b..

21 retracted, position. Also at this time, a safety interlock is not deemed necessary on hand-held injection device 40' because this embodiment is primarily used on soft-tissued animals such as poultry 3 where again the safety interlock would not have a substantial body part to urge the interlock to it's 24 second, retracted, position. A dye source is indicated at 60 with its associated tubing 86 which interconnects, again by a quick connect fluid coupler, to conduit tubing 78 that is in fluid 26 communication with hand-held injection device S'7 Fig. 6 is an external illustration of the control unit 110 of the medicament delivery system ":"2z8 20 of this invention with pump 100 mounted on top. In all embodiments, control unit provides 29 electrical power to hand held units 40 as well as electronic information is set in electronic control to 1 control dosage, dye on/off, and amount, injection count and low medicament level as well as the 2 automatic reverse feature following each injection. A nine-pin amp electrical connector 94 connects 3 the electronic control unit 110 to any of the hand-held injection devices 40. A four-pin amp electrical 4 connector 122 connects the electronic control unit 110 to the dye pump. Another four-pin amp connector 124 connects the control unit 110 to the battery 126. These different amp electrical 6 connectors protect against accidental connection of the wrong device to the outletat the control unit 7 110. Display 112 is an LCD display which lights up to illustrate the different modes of the control 8 unit 110, namely, the amount of the selected dosage, the amount ofdye used per subject animal, and 9 the count of injections made. The dosage, which is controlled by setting the number of pulses that are emitted by the electronic photo optic sensor 138 to accurately inject the desired dose, depends 11 on the viscosity and temperature of the medicament and must be calculated at each injection session.

12 For example, very low viscosity liquid, such as water, requires 44 pulses per 1.0 milliliter (ml) while 13 on the other hand, dosages of high-viscosity vaccines could require as many.as 110 pulses per 14 milliliter The number of pulses in an injection is manually controlled by the up and down arrows 106 on the face of control unit 110, can be set at each injection session. Whether or not to use dye and the amount of dye used can also be selected by control unit 110. The amount of dye to be used 1" can be set in 0.1 second increments. The injection count can be re-set to zero after each injection .•18 session by means of the up and down arrows 106. Switches on the face of control unit 110 include 19 an on-off power switch 114, pump switch 116 that controls forward or reverse pump, and light A switch 120 which controls power to the head lamp 46.

7i Being able to switch the pump to reverse enables reclaiming of the sterile serum, or other 22 medicament, that is in the tubing and in the hand-held injection device 40, and pump 100 itself "23 Reversing the pump 100 at the end of each job, by switching upwardly switch 116, effectively 24 retrieves medicament in the system to the container 70 or to be discarded. This procedure can then be followed by switching the pump switch 116 to "forward" to 'clean-in-place' the system 20 by pumping hot detergent water followed by a rinse, or any cleaning procedure outlined by the user.

27 In actual use conditions, an on/off switch such as model SLP 130A4-16, made by Honeywell, 28 Minneapolis, MN power switch has been used although other comparable power switches could be 29 substituted without changing the invention.

1 Tubing 80 provides medicament to pump 100 while tubing 82 leads from the pump 100 to the 2 particular hand-held injection device 40 selected.

3 Fig. 7 is a perspective view of the interior of the control unit of Fig. 6. Electronic dosage 4 control 130 uses a photo-optic unit to control the volume of medicament fluid pumped by pump 100.

Pump 100 drives shaft 134 which turns an encoder disc 132 that has slots that are placed at a 6 calibrated distance from one another around the perimeter of circular encoder disc 132. As the 7 encoder disc 132 rotates in response to rotation of drive shaft 134, the slots pass between an emitter 8 and a receiver of a photo-optic sensor 138., The encoder disc 132 passes through the sensor 138.

9 The sensor 138 "counts" the number of slots that pass between an emitter and receiver. The combination of the distance between the slots and the number of slots allowed to pass through the 11 sensor 138 determines the amount of serum that is dispersed. This sensor 138 is wired into a circuit 12 board 140 which includes a micro chip 142*which allows selection and control of the distance the 13 fluid travels in pump 100. This method is preferred because of the ease in changing doses and in view 14 of the changing viscosities of the medicaments used. To change the dose, the user manipulates the *15 function mode by pressing the "Function" key pad 108, of control unit 110. The current number -156 of pulses will flash on the display 112. The pulse count can then be changed by pressing the "UP" or "DOWN" key pad 106 until the correct number of pulses are shown. The press the "Function" 18 keypad 108 to set the correct dose. The LCD display 112 will then stop flashing.

19 Counter also displayed on LCD display 112, records a dispensed dosage every time any of the hand held units 40 is activated. If desired, the counter keeps a running total of the number of :.21 injections given while the veterinary medicament delivery system 20 is turned on. The counter is reset 22 manually by using the down arrow 106.. A micro switch liquid crystal display (LCD)unit, made by "2.3 Curtis Instruments, Inc., 204 Kisco Ave., Mt. Kisco, NY 10549, has been used and works well 24 although other LCD's could be used.

"5 The dosage is set depending on the number of light pulses sensed by the photo optic sensor 138. The user determines how many pulses are equal to 1.0 cc of the injectible medicament and 27 calculates the desired dosage, then determines the number of pulses required for the correct dosage.

28 This setting is reached by, first, pressing the "Function:" key pad 108, at which time the current 29 setting will flash in the LCD 112. Then, by use of the "UP" or DOWN" keypads 106move the 1 number of pulses to the desired dosage setting at which time the "Function" key pad 108 should be 2 pressed to set the correct dose. The LCD 112 will then stop flashing. The appropriate dose is 3 selected by using the LCD display 112 on control unit 110.

4 Fig. 8 illustrates the third embodiment hand-held injection device 40" used to simultaneously inject two medicaments of similar viscosities. Because these two medicaments may not be mixed, 6 for whatever reason, they are run through separate pumps, 100 and 100' which are interconnected 7 by an extension of drive shaft 134, shown in detail in Fig. 7. Tubing 82 82' carries the pumped 8 medicaments separately to hand-held injection device 40" for simultaneous injection. Fig. 9 9 illustrates the third embodiment hand-held injection device 40" in the case of desiring to simultaneously inject two medicaments of different viscosities. Again, these two medicaments are 11 not be to mixed, for whatever reason, and are run through two separate control units, 110 110' 12 before being run through tubing 78 78' into hand-held injection device 13 Fig. 10 is a side view of a medicament mixing tube 190 with quick connect fluid connectors 14 196 at either end. Y-shaped coupling 198 brings together the two medicaments to mixing tube 190.

This tubing is inserted in the tubing somewhere between the pump 100 and any of the hand-held 6 injection devices 40, 40', or Injectible medicaments from two different sources may be mixed S*1:7 together by use of this mixing tube 190 prior to injection. This is used where the separate injectibles '8 are compatible. In the case where they are not able to be mixed for some reason, the two injection 19 hand-held injection device 40" is used. In use, the mixing tube 190, having a cylindrical barrel 20 chamber 192 with a centrally positioned mixing member, double helix fins 194 shaped as two worm S*1 gears rotating in opposite directions, is provided enabling mixing together of two fluids for delivery 22 to any of the hand-held injection devices 40, 40', 40" or "*23 Optional marking means is provided in the form of an applicator pad 172 that marks dye S24 onto the subject animal or fowl at the time of injection to conspicuously mark an individual within e .5 a group that has been injected.

26 Hand-held injection device 27 First hand-held injection device 40, shown in detail in Fig.1 has a one-piece generally 2 8 cylindrical housing with a trigger 42 and an emergency stop button 44 mounted on the flattened 1 dorsal surface 41. A red LCD 50 indicates low medicament bottle level while green LCD 48 2 indicates an injection is in progress. Both are also mounted on the dorsal surface 41. An 3 additional injection in progress LCD 52 is mounted on the distal surface 24 of the hand-held 4 injection device 40, as shown in Fig. 3. Head lamp 46 and dye applicator pad 172 are mounted on the proximal surface of hand-held injection device 40. The needle mount 58, in actual use a Luer 6 lock, receives hollow needle 56. Emergency stop button 44 provides means for preventing 7 accidental injection. The medicament in tubing 84 travels from the pump100 and is joined by dye 8 in tubing 86. Both are wound together with power cord 88 into a larger tubing 78 that is 9 received by the distal surface 24 of hand-held injection device 40. Dye applicator pad 172, into which dye is pumped, extends from the hand-held injection device 40 and onto the animal to 11 automatically mark the animal at each injection. Hand-held injection device 40 is especially useful 12 in injection of thin-skinned areas, for example, the ears of cattle.

13 Hand -held unit 40', shown in Figs. 2 3, is similar in most respects to the first 14 embodiment but adds a dye applicator pad 172. Hand-held injection device 40", shown at Fig. 4, 4, adds an additional hollow needle 56' and needle mount 58'. In this embodiment as illustrated in Fig. 4, has an addition second medicament tubing 82' and power cord 88'. Emergency. stop :1 button 44 provides means by which to deter accidental self-injection. The medicament in tubing 18 82 travels from the pump100 and is joined by pumped medicament in tubing 82'. Both are 19 wound together with power cord 88 into a larger conduit tubing 78 that is received by the distal surface 24 of hand-held injection device 40". Hand-held injection device 40" is especially useful in injection of poultry.

22 Hand -held unit Fig. 5, is similar in most respects to the first, second and third 0023 embodiments but the housing of hand-held injection device 40"' is inverted and a pistol grip S24 with the trigger 42 mounted thereon, is added. A safety interlock 150, with solid member 152, is 2 5 mounted on the proximal surface 22, is used as means for preventing accidental self-injection.

The medicament in tubing 82 travels from the pumpl00 and is joined by dye in tubing 86. Both 27 are wound together with power cord 88 into a larger conduit tubing 78 that is received by the 28 distal surface 24 of hand-held injection device Dye applicator pad 172, into which dye is 29 pumped, extends from the hand-held injection device 40"' and onto the animal to automatically 1 mark each animal at each injection. Hand-held injection device 40"' is especially useful in 2 injection of thick skinned animals such as pigs, sheep and cattle in places other than the ear.

3 Hand -held unit Fig. 13, is similar in most respects to the first, second, third and 4 fourth embodiments but the housing of hand-held injection device 40"" is a two piece housing with a head portion 32 and a handle portion 34 connected by pivot 36 with the trigger 42 6 mounted on the handle portion 34. A safety interlock, with solid member 152, is mounted 7 adjacent the hollow needle 56 and is used as means for deterring accidental self-injection. The 8 safety interlock with solid member 152 has a spring 38 to urge the safety interlock solid member 9 152 into a first position, extending at least as far as the needle 56. Safety interlock with solid member 152 is urged to a second position, pushed to the tip of needle hub 58 as indicated by 11 arrows in Fig. 13, when the needle 56 comes into contact with the body of the poultry or other 12 animal. When safety interlock solid member 152 is biased to the second position, it completes an 13 electrical circuit, a Hall effect switch 31, and actuates the pump 100. The medicament in tubing 14 82 travels from the pumpl00 and is joined by dye in tubing 86. Both are wound together with power cord 88 into a larger conduit tubing 78 that is received by the distal surface 24 of handheld injection device Dye applicator pad 172, into which dye is pumped, extends from the i? hand-held injection device 40"" and onto the animal to automatically mark each animal at each .A injection. The pivot 36 permits re-positioning of the handle portion 34 relative to the head 19 portion 32 to enable the user to more comfortably fit the injection device 40"" to his or her hand .0.2 for prolonged use and to facilitate different types of injections as when changing between injecting swine and poultry.

22 All hand -held units 40, 40', 40", 40"' 40"" are equipped with a hollow needle 56 which ""23 is in fluid communication, through injection set tubing 82, with the liquid medicament container 2 70. When the needle 56 is inserted, the medicament fluid is injected.

S: 25 In all of the hand-held injection devices 40,40', 40", electrical wiring is connected to port on the control unit 110 by a durable, water resistant electrical amp connectors 27 94,122,124, such an electrical connector is made by Time Electronic Supply Co., 7803 Green Bay 28 Rd. Suite 302, Bloomington, MN 55439. A nine-pin amp connector 94 connects the electronic 29 control unit 110 to the hand-held injection device 40. A four-pin amp connector 122 connects the 1 electronic control unit 110 to the dye pump. Another four-pin amp connector 124 connects the 2 control unit 110 to the battery 126. These different amp connectors protect against accidental 3 connection of the wrong device to the outlet at the control unit 110. A quick connect fluid 4 coupler 196, such as that made by Coulder Products Co., 1001 Westgate Dr. St. Paul, MN 55114, connects the injection set tubing 80, 82 to pump 100 and also to mixing tube 190. The 6 quick connect fluid couplers 196 enable the user to select the hand-held injection device 40, 7 40" or 40"" needed and also to disconnect the tubing when replacement is needed. The 8 quick connect fluid couplers 196 also permits the hand-held injection devices 40, 40', 40", 9 or 40"" to be disconnected for ease of transportation and storage. Additionally, the quick connect fluid couplers 196 are water proof to a submersible depth of three feet. This connector 11 seals tightly and will prevent dirt and grime from entering the electric contacts that they are 12 protecting.

13 All hand-held injection devices 40, 40', 40" 40"' 40"" are also equipped with a light 14 emitting diode as an illuminating head lamp 46, mounted adjacent to the needle 56. A diode such as model HLMP-1503, made by Gilway manufacturer has been used and works well although .1!6 other light emitting sources could also be used. Head lamp 46, is in electrical communication 11 with battery 126, Fig.1, provides illumination in low light areas, such as barns, and further attracts "18 attention to the needle 56 to prevent accidental self-injection by user. Poultry are vaccinated in 19 low light in order to keep the birds calm.

20 Several indicator lights are located on all hand-held injection devices 40, 40', 40", Low serum bottle level is indicated by red LCD signal light 50 set to the count and will 22 light when the bottle is down to approximately 10% of capacity, e.g. in a 250ml bottle, signal :2-3 light 50 lights when the bottle is down to about 25. A green LCD 48 mounted on hand-held 24 injection devices 40, 40', 40" 40"" light to indicate an injection is in progress. These LCDs are in electrical communication with battery 126 by means of wiring 88. The reverse mode is used to retrieve unused medicament at the end of each job thereby reducing waste of 27 medicament. The reverse mode must be set, by means of the "function" button 108 and the down 28 arrow 106 prior to the dosage being set. In actual use conditions, a simple LCD, such as 29 made by model MV- 1000 made by Gilway has been used and works well however other LCDs 1 having similar features could be used.

2 In all of the hand-held injection devices 40, 40', 40" 40"' optional dye means 3 is simultaneously dabbed from dye applicator pad 172 to mark the animal or fowl injected, the 4 applicator pad 172 interconnected by dye fluid tubing 86 to a dye container, and is applied in response to again manually pushing main trigger 42 inwardly. There is no separate trigger for 6 controlling the dye function.

7 PUMP 8 In use, a peristaltic-type pump 100 creates a vacuum within tubing that sucks up the fluid 9 from the medicament container 70 by repetitively compressing and expanding a section of tubing. In actual use conditions, a relatively large bore high density plastic tubing has been used 11 with great success. The size of the tubing bears a direct relationship to the length of time it takes 12 to complete an injection, namely, the larger the tubing, the quicker the injection time. This 13 repetitively compressing and expanding a section of tubing creates a vacuum within the tubing and :.14 provides the force to move the fluid from the medicament container through the system to the hand held unit 40, 40', 40", 40"' or 40"" without introducing contamination into the system.

In actual use conditions, a peristaltic-type pump such as that made by Barnant Co., 28W 092 Commercial Ave. Barrington, IL 60610, has been used although other peristaltic-type pumps 18 could be used. The peristaltic-type pump 100 may additionally be set so that the serum, or other 19 fluid medicament, may be sucked up automatically from the hand-held injection device 40, 40" 40"' or 40"" by manually reversing the pump 100, to prevent waste. The pump 100 is 21 self-priming. The user simply continues to push trigger 42 until serum or other fluid medicament .22 reaches hand-held injection device 40, 40', 40" 40"' A second peristaltic-type pump 100' may be provided and mounted in a piggy -back manner to force a second fluid medicament through the system at the same rate for delivery through the hand-held injection device Pump 100 is driven by motor 104, Fig. 7, in actual use a 12 volt motor, model 33GN2732-276 26 GHS, made by Power Electric Products, 2285 Daniels St. Long Lake, MN 515 has been used 27 although other similar 12 volt motors could be used.

2 8 Because peristaltic pump 100 works on the premise of displacement, pump 100 accurately and 1 consistently delivers the same dosage. The dose delivered can be formulated by multiplying the 2 inner cross-sectional area of the tubing inside the pump 100 by the distance the tubing is 3 compressed during one cycle of the peristaltic pump. Each time trigger 42 is manually depressed 4 and safety interlock 152 is pushed to its second position in response to needle 56 being fully inserted, the exact dosage is dispensed by pump 100. This increases accuracy of delivery of the 6 dosage and eliminates user error caused by fatigue.

S7 Battery 126 powers motor 104. In actual use conditions, a 12 volt, sealed, lead acid, 8 rechargeable battery, such as model DG 12-4.2 Guardian made by Douglas Co. has been used 9 although other similar batteries could also be used. One battery charge should be able to power the device 20 through one full day of injections.

11 CASE 12 Any of the embodiments of veterinary medicament delivery system 20 can be housed in a .13 resilient, light weight material backpack, or other housing, so long as the housing protects the 14 various elements of the veterinary medicament delivery system 20 from dirt and dust. Having the system stored in a backpack enhances portability and storage of the system .Draw-off needle is held in place inside medicament container 70. Tubing 80 is attached at 1" a first end to intake tubing and at a second end to a lead-in tubing for a peristaltic-type pump ••oo ioo 100.

19 MIXING TUBE .'0p An optional mixing tube 190, Fig. 10, is provided to mix together two medicaments prior 21 to the medicaments being injected. Mixing tube 190 consists of a chamber 192 with double helix- ,2 shaped fins 194 that, when two fluids are introduced through a Y-shaped coupling 198, the two S23 fluids are intermixed as they are pushed down mixing tube before exiting through quick connect .4 fluid coupler 196. As fluids flow through mixing tube 190, the fluids, not shown, pass over a *i series of stationary, helical-shaped fins 194 which causes the fluids to fold over on themselves. In 26 this manner the fluids are completely mixed in a short distance, e.g. three inches.

27 28 DYE APPLICATOR 1 Dye reservoir 60 has an intake tubing affixed to reservoir 60 that draws up dye in response 2 to a separate dye pump. Dye is drawn into dye tubing 86 in fluid communication with any of the 3 hand-held injection devices 40, 40', 40", 40"' or but especially with 40"' Dye 4 intake tubing 86 draws up dye in response to activation of a dye pump in response to activation of the dye pump by the injection circuit. This pump delivers dye to the applicator pad in increments 6 of 0.1 second for each injection. By setting the dye pump at zero, the dye can be discontinued if 7 desired.

.8 Dye applicator pad 172 is mounted on the proximal surface 22 of hand-held injection device 40, 40', 40", or 40"" adjacent needle 56 and head lamp 46. Dye applicator pad 172 is in fluid communication with dye-reservoir 60. It has been found that dye is dabbed onto.

11 the animal's coat or skin simultaneously with the injection works well. The dye applicator pad 12 dabs the dye in 0.1 second increments, depending on the control unit 110 setting. The dye marks 13 the animal injected so that it is easy to distinguish between animals that have been vaccinated or 14 injected and those that have not. This feature is a switched function and can be turned onor off M. 1. according to the needs of the job, as set by the function key of control unit 110.

DOSAGE CONTROL 1 In all embodiments, the selected dosage is administered cleanly and completely, without dripping because the pump 100 is set to automatically reverse at the end of each injection. The 19 amount of this reverse is set into control unit 110 before the dosage is set. This automatic reverse 20 prevents serum, or other fluid medicament, from flowing out of the end of the hand-held injection .ee device 40, 40', 40", or 40"" due to latent pressure. A quick reverse after each injection 22 prevents drip. It is important, also, to retrieve unused medicament at the end of each injection session. The pump reverse switch is used to retrieve unused medicament at the end of the 09.0:* o24 injection session. The need for reversing fluid flow does not allow for use of a delivery valve because such a valve would prevent any reverse action.

2 It is an important feature of this system that it does not include a delivery valve. The 27 absence of a delivery valve necessitates a positive, abrupt stop upon the completion of each 28 injection followed by a quick reverse by which drip can be prevented. The injection process, 29 therefore, involves an automatic abrupt stop upon delivery of each dose, immediately followed by 1 a short pre-set reverse sufficient to prevent any drip. This reverse can differ according to the 2 viscosity of the medicament and should be set prior to the start of each injection session, usually 8 3 -10 pulses. By setting this reverse action prior to setting the correct dosage, the precise delivery 4 of each injection is not impaired. The automatic reverse is set using the "Function" keypad 108 and the down arrow 106 on the front of control unit 110.

6 Electronic dosage control 130 uses a photo-optic sensor 138, shown in detail in Fig. 7, 7 to control the volume of medicament fluid pumped by pump 100. Pump 100 drives shaft 134 8 that turns an encoder disc 132 that has slots that are placed at a calibrated distance from one 9 another around the perimeter of circular encoder disc 132. As the encoder disc 132 rotates in response to rotation of drive shaft 134, the slots pass between an emitter and a receiver of the 11 photo-optic sensor 138. As the encoder disc 132 passes through the sensor 138, the sensor 138 12, "counts" the number of slots that pass between an emitter and a receiver inside a dark housing 13 within the control unit 110 adjacent the pump 100. -The combination of the distance between the 14 slots and the number of slots allowed to pass through the sensor 138 determines the amount of medicament that is dispersed. This amount is dependent on the viscosity of the medicament and the temperature of the medicament. Setting the required number of pulses by the photo-optic Y7 sensor to accurately administer the necessary precise dose is usually accomplished by taking measure of a set number of pulses, maybe 200, then calculating the required pulses for the desired SY6 dose. In actual use conditions, the photo-optic encoder disc 132 has 72 slots although other 29 sized discs with other numbers of slots, could be calibrated for use. Since the sensor 138 S responds positively in individual slots, it is possible to set the dosage to within 0.0138 milliliter 22 (ml) accuracy. The pump stops abruptly upon the delivery of each dose, then automatically X reverses to the number ofpre-set pulses in order to stop drip. Usually 10 pulses are sufficient to b T'4 clear the needle 56 of any drip. This sensor 138 is wired into a circuit board 140 for dosage selection control, one of the functions of control unit 110 of Figs. 1, 6, 8 9 which allows 2. selection and control of the distance the fluid travels in pump 100. To change the dose, 27 manipulate a switch of dosage selection control and select the dose from a selectable dosage LCD 28 display 112 by pressing "Function" keypad 108 until "dose" appears. Then, using the "up" and 29 "down" arrow key pads 106, enter the selected dosage. This number will be flashing on the LCD.

1 To set the dose, touch the "function"keypad 108 at which time the number will stop flashing.

2 Other features of the control unit 110 "function" keypad 108 are: automatic reverse setting, a re- 3 setable counter and a dye selection, shown in detail at Fig. 1,6,8 9. Counter records a 4 dispensed dosage every time the hand-held injection device 40 is activated. Counter keeps a running total of the number of injections given while the veterinary medicament delivery system 6 20 is turned on. The counter is reset manually by pressing the down arrow 106 on control unit 7 110. The total is recorded by a liquid crystal display 112 on the control unit 110. A micro switch 8 liquid crystal display unit, made by Curtis Instruments, Inc., 204 Kisco Ave., Mt. Kisco, NY 9 10549, has been used and works well although other LCD's could be used.

Up and down arrows 106 are used to select from a range of dose settings LCD display 11 112, the appropriate dose, the chosen dosage setting illuminated by a light. Dosage settings are 12 calibrated into the electronic control unit 110 to accommodate the desired dose. Also shown 13 are three switches power on/off 114, pump 116 forward/reverse, and head lamp on/off switch 14 120.

Veterinary medicament delivery system 20 may be cleaned by flushing with hot, e.g.

16 1600F, detergent/water mixture placed in medicament container 80. To accomplish cleaning, the a ?7 pump switch on the face of the control unit is set to "forward" in order to circulate cleaning/sanitizing solutions for effective "clean in place". Cleaning practices vary among operators. Flushing with hot detergent water, followed by a clean rinse, is accepted by many who '20 fear harming the vaccines with disinfectants. Others flush with hot detergent water and follow 21 with an alcohol rinse, which, of course, is then rinsed.

All the hand-held injection devices 40, 40', 40", 40"" have two signal lights on a 23 top surface thereof, namely red LED 50 signaling low medicament, and green LED 48 indicating 0. 2 4 injection in progress. On the proximal surface 22 of each hand-held injection device 40, 40', *:125 40"' or 40"" dye applicator pad 172 can be mounted which, when powered on, marks each 26 animal or bird to which medicament is administered.

27 In the operation of hand-held injection device Fig. 5, trigger 42 must be depressed, 28 and the needle 56 must be fully inserted into animal or fowl, which pushes safety interlock 152 29 the tip of the needle hub 58 to complete the electrical circuit to actuate the pump 100 which 1 accomplishes administration of medicament. This double requirement of trigger 42 being 2 depressed and safety interlock solid member 152 pushed to a second position before the 3 medicament is administered reduces the dangers of self-injection. And because the trigger 42 is 4 being depressed, either serially or continually, rather than manually pushing a syringe handle in order to pump the medicament into the animal through the needle and against the pressure of a 6 return spring, this system greatly reduces fatigue and the incidence of repetitive motion injury in 7 the operator. Additionally, use of this system 20 permits greater speed of administration of 8 medicament to the multiplicity of animals or fowl sought to be medicated. Hand-held injection 9 device 40"" also having safety interlock 152, Fig. 13, works similarly to hand-held device .In the operation of hand-held injection.device 40 40", trigger 42 must again be 11 depressed for each injection. Emergency stop button 44 enables the user to stop the injection in 12 the case of either piercing the user's skin with the needle 56 or running the needle through the 13 subject animal body, ex. the ear. This deters accidental self-injection and accidental waste of 14 expensive medicament in the case of running the needle through the subject animal body.

Use of the electronic dosage control 130, permits changing of the dosage to be 16 administered and is especially useful when different dosages are to be administered in succession, .L.7 however, it would be equally useful in situation where a multiplicity of animals or fowl were .8 administered the same dosage of medicament.

S"When it is desired that two medicaments are to be administered simultaneously, a mixing tube 190, Fig. 11 may be added between the pumpl00, 100' and the hand-held injection device 21 In addition to mixing tube 190, an additional pump 100' and related tubing and T-coupling 198 2 are used to permit mixing of the two medicaments prior to administration.

23 Veterinary medicament delivery system 20 may be cleaned by flushing with hot, e.g.

1600F, detergent/water mixture placed in medicament container 80. Cleaning practices vary S- among operators. Flushing with hot detergent water, followed by a clean rinse, is accepted by 26 many who fear harming the vaccines with disinfectants. Others flush with hot detergent water and follow with an alcohol rinse, which, of course, is then rinsed.

2 These important features allow for very precise dose from a self-priming, electrically 29 powered pump through a valve-free system which can prevent drip, include important safety 1 features to deter self-injection, automatically mark each animal, total the numbers of injections, 2 retrieve unused medicament and provide for an easy method of internally 'cleaning-in-place' of 3 the system.

4 Although the present invention has been described in considerable detail with reference to certain preferred versions thereof, other versions are possible. Therefore, the spirit and scope of 6 the appended claims should not be limited to the description of the preferred versions contained 7 herein, Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.

The reference to any prior art in this specification is not, and should not be taken as an acknowledgment or any form of suggestion that, that prior art forms part of the common general knowledge in Australia.

*o*o*

Claims (6)

1. 3. The system of claim 1, wherein said means for deterring accidental self-injection by a user S.496 further comprise a safety interlock, mounted on said proximal surface of said hand-held injection .7 device, extending longitudinally therefrom to a point even with said needle tip, said safety 18 interlock urged to a second position, in response to said hand-held injection device being positioned adjacent an animal to be injected, where the needle is inserted completely in said animal body, where an extension of said safety interlock within the housing of said hand-held 2,1 injection device closes a circuit actuating an injection. e 22 4. The system of claim 1, further comprising means for precisely controlling the amount of a 23 medicament administered. 24 5. The system of claim 4, said means for precisely controlling the amount of medicament 1 administered further comprise a control unit where the dosage of the medicament to be 2 administered is controlled by setting the number of pulses that are emitted by an electronic photo 3 optic sensor in response to an amount of medicament passing therethrough. 4 6. The system of claim 5, further comprising means for readily indicating when in injection is taking place. 6 7. The system of claim 6, fUrther comprising means for indicating when the medicament fluid 7 level is low. 8 8. The system of claim 7, further comprising means for automatically delivering two medicaments 9 for injection simultaneously by the system.
2. 9. An automatic veterinary medicament delivery system, for delivery of at least one fluid 11 medicament to an individual fowl, ovine, procine or other animal within a group, comprising: 12 a) a generally cylindrical, valve-free, hand-held injection device having a hollow Sl13 needle for injecting a liquid, o J 4 b) tubing interconnecting said hand-held injection device in fluid communication with -at least one liquid medicament; c) a pump, in fluid communication with both said hand-held injection device and 17 liquid medicament, said pump for forcing a medicament through said tubing to said hand-held injection device for delivery; S1'9 d) means for powering said pump; S. e) an emergency stop button mounted on said hand-held injection device as means for deterring accidental self-injection by a user of said system; and 22 f) a control unit where the dosage of the medicament to be administered is controlled 3: 2:1 by setting the number of pulses that are emitted by an electronic photo optic sensor 24 in response to an amount of medicament passing therethrough. as means for precisely controlling the amount of a medicament administered. 1 10. The system of claim 9, further comprising means for readily indicating when in injection is 2 taking place. 3 11. The system of claim 10, further comprising means for indicating when the medicament fluid 4 level is low.
3. 12. The system of claim 11, further comprising means for automatically delivering two 6 medicaments for injection simultaneously by the system. 7 13. An automatic veterinary medicament delivery system, for delivery of at least one fluid 8 medicament to an individual fowl, ovine, procine or other animal within a group, comprising: 9 a) A generally cylindrical, valve-free, hand-held injection device having a hollow needle for injecting a liquid, 11 b) tubing interconnecting said hand-held injection device in fluid communication with 12 at least one liquid medicament; 13 c) a pump, in fluid communication with both said hand-held injection device and )4 liquid medicament, said pump for forcing a medicament through said tubing to said S" hand-held injection device for delivery; .b means for powering said pump; 17 e) a safety interlock, mounted on said proximal surface of said hand-held injection device, extending longitudinally therefrom to a point even with said needle tip, said "".9safety interlock urged to a second position, in response to said hand-held injection .2.0 device being positioned adjacent an animal to be injected, where the needle is inserted completely in said animal body, where an extension of said safety 22 interlock within the housing of said hand-held injection device closes a circuit actuating an injection as means for deterring accidental self-injection by a user of S24 said system; and f) a control unit where the dosage of the medicament to be administered is controlled 1 by setting the number of pulses that are emitted by an electronic photo optic sensor 2 in response to an amount of medicament passing therethrough.as means for 3 precisely controlling the amount of a medicament administered. 4 14. The system of claim 13, wherein said control unit further comprises: a) a photo-optic sensor to control the volume of medicament fluid pumped by said 6 pump; 7 b) a circular encoder disc, having slots formed in said encoder disc placed at a 8 calibrated distance from one another around the perimeter of said encoder disc; 9 c) a drive shaft, driven by said pump, for driving said encoder disc wherein said slots pass between an emitter and a receiver of said photo-optic sensor permitting 11 calibration of the amount of said medicament dispersed. 12 15. The system of claim 14, further comprising means for readily indicating when in injection is 13 taking place. 14 16. The system of claim 15, further comprising means for indicating when the medicament fluid o level is low. 46 17. The system of claim 16, further comprising means for automatically delivering two .1.Z medicaments for injection simultaneously by the system.
4. 18. The system of claim 1, wherein a first hand-held injection device further includes: S"9 a) a trigger, in electrical communication with said pump, mounted on a dorsal 2.0 surface of said device; b) an emergency stop button mounted on a dorsal surface of said device as means for 22 deterring accidental self-injection of the user; S:2 c) a head lamp mounted on the proximal surface of said device, for providing 4 illumination in low light areas and as a further warning to the user to avoid self- injection; and 1 d) an injection in progress light mounted on said housing of said device. 2 19. The system of claim 1, wherein a second hand-held injection device further includes: 3 a) a trigger, in electrical communication with said pump, mounted on a dorsal surface 4 of said device; b) an emergency stop button mounted on a dorsal surface of said device as means for 6 accidental self-injection of the user; 7 c) a head lamp mounted on the proximal surface of said device, for providing 8 illumination in low light areas and further as a warning to the user to avoid self- 9 injection; d) an injection in progress light mounted on said housing of said device; and 11 e) optional dye marking means for conspiculously marking an animal injected, 12 simultaneously with the injection. 13 20. The system of claim 1, wherein a third hand-held injection device further includes: 4 a) a second hollow needle, mounted on a proximal surface of said device, for 5 injecting two medicaments simultaneously; .2'6 b) a trigger, in electrical communication with said pump, mounted on a dorsal surface of said device; 18 c) an emergency stop button mounted on a dorsal surface of said device as means for .19 deterring accidental self-injection of the user; 2 0 d) a head lamp mounted on the proximal surface of said device for providing illumination in low light areas and further as a warning to the user to avoid self- injection; and 23 e) an injection in progress light mounted on said housing of said device. 24 21. The system of claim 1, wherein a fourth hand-held injection device further includes: 1 a) a trigger, in electrical communication with said pump, mounted on a pistol grip 2 handle mounted on said device; 3 b) a safety interlock mounted on the proximal surface of said device as means for 4 deterring accidental self-injection of the user; c) a head lamp mounted on the proximal surface of said device, for providing 6 illumination in low light areas and further as a warning to the user to avoid self- 7 injection; 8 d) an injection in progress light mounted on said housing of said device; and 9 e) optional dye marking means for conspicuously marking an animal injected, simultaneously with the injection. 11 22. The system of claim 18, 19, 20, or 21, wherein said hand-held injection device selected is 12 installed for fluid connection with the system by means of a quick connect fluid coupler 13 connecting to said pump. 14 23. The system of claim 22, wherein said hand-held injection device selected is installed for ,5 electrical connection by means of an amp electrical connector to said control unit for powering ,6 said selected hand-held injection device. 3?7 24. The system of claim 23, wherein said control unit permits selecting appropriate doses to be 18 delivered by said selected hand-held injection device. ••*ooo f9 25. The system of claim 24, wherein said control unit further comprises: oa) a photo-optic sensor to control the volume of medicament fluid pumped by said .pump; 22 b) a circular encoder disc, having slots formed in said encoder disc placed at a 2 calibrated distance from one another around the perimeter of said encoder disc; 2 c) a drive shaft, driven by said pump, for driving said encoder disc wherein said slots pass between an emitter and a receiver of said photo-optic sensor permitting 1 calibration of the amount of said medicament dispersed. 2 26. The system of claim 1, wherein the pump is a self-priming peristaltic pump permitting valve- 3 free system. 4 27. The system of claim 1, wherein two different medicaments are automatically mixed, by means of a mixing tube, to permit injection of two different medicaments in a single injection procedure. 6 28. The system of claim 27, wherein said mixing tube, for mixing two fluids, further comprises: 7 a) a T-shaped coupling interconnecting said two fluid sources; 8 b) a cylinder having a first, intake end and a second exit end; and 9 c) a double helix-shaped fin retained within said cylinder that, when two fluids are introduced through said T-shaped coupling, said fluids are intermixed as they are 11 pushed down said fin before exiting said cylinder. 12 1.3 29. An automatic veterinary medicament delivery system, for delivery of fluid medicaments to an 4 individual fowl, ovine or other animals, comprising: a) a hand-held injection device for injecting the medicament; .6 b) a source of medicament; 17 c) tubing interconnecting said injection device and source of medicament; d) a pump, in fluid communication with both said injection device and said source of medicament, for forcing the medicament through said tubing from said medicament .20 source to said injection device for delivery; *00:. 2 e) means for powering said pump; 22 f) means for precisely controlling the amount of medicament administered; 23 g) means for readily indicating when an injection is taking place; S24 i) means for indicating when the medicament fluid level is low; j) means for preventing inadvertent injection by a user of the system; and 1 k) means for automatically delivering two medicaments for injection simultaneously 2 by the system. 3 30. The system of claim 1 further comprising a method of cleaning the system wherein a pump 4 switch on the face of said control unit is set to "forward" in order to circulate cleaning/sanitizing solutions, for effective "clean in place" of the system. 6 31. A method of delivering two medicaments simultaneously without mixing the medicaments, 7 further comprising the steps of: 8 a) providing an automatic veterinary medicament delivery system of claim 1, 9 b) installing a second pump, interconnected by drive shaft to a first pump; c) interconnecting tubing between each medicament and their respective pump; and 11 d) interconnecting tubing between said pumps and a hand-held injection device of 12 claim 13 32. A method of delivering two medicaments simultaneously without mixing the medicaments, further comprising the steps of: a) providing an automatic veterinary medicament delivery system of claim 1; Y :"0 6 b) installing a second control unit with an additional pump mounted thereon; '7J c) interconnecting tubing between each medicament and their respective pump; and 18 d) interconnecting tubing between said pumps and a hand-held injection device of claim
5. 33. A method of delivering two medicaments simultaneously, further comprising the steps of: a) providing an automatic veterinary medicament delivery system of claim 1; 22 b) installing a second pump, interconnected by drive shaft to a first pump; :23 c) interconnecting tubing between each medicament and their respective pump; and 2 4 d) interconnecting tubing between said pumps and a mixing tube and hand-held injection device of claim 18, 19 or 21. 1 34. An automatic veterinary medicament delivery system, for delivery of at least one fluid 2 medicament to an individual fowl, ovine, procine or other animal within a group, comprising: 3 a) a hand-held injection device for delivery of the medicament through a hollow 4 needle is housed within a head portion of said gun; b) said injection device further including a housing with a head portion and a handle 6 portion, said portions being pivotally connected 7 c) a source of medicament; 8 d) means for measuring the amount of medicament delivered; 9 e) tubing interconnecting said gun and said source of medicament; f) a self-priming peristaltic pump, external to said gun, in fluid communication with 11 both said gun and said source of medicament, for forcing the medicament through 12 said tubing from said medicament source to said gun for delivery; and 13 g) means for powering said pump. 14 35. The system of claim 34, further comprising a spring-loaded retractable safety interlock •0 adjacent said needle wherein spring biasing means urges said safety interlock into a first 16 position extending longitudinally at least as far as the tip of said needle and means are 7 further provided for overcoming said spring biasing means, urging said safety interlock -into a second position wherein said needle is extended longitudinally beyond said safety 19 interlock and closing an electrical switch which actuates said pump causing release of fluid through said needle.
6. 36. The system of claim 35, wherein a trigger is mounted on the housing, said trigger in electrical communication with the pump and in conjunction with the safety interlock 23 switch, wherein when said trigger is depressed, said safety interlock is biased to a second 2 4 position actuating said switch and completes the electrical circuit and actuates said pump to power the injection device to deliver medicament to the animal or fowl to be 26 injected, said trigger deterring accidental self-injection. 1 37. The injection device of claim 34, wherein said housing, having said head portion and said 2 handle portion with said pivot, may be adapted for a linear alignment of said head portion and said 3 handle portion to facilitate different positions for delivery of medicament such that re-positioning 4 said housing changes the angle of injection. DATED this 15th day of October 2001 EIDSON ASSOCIATES, INC By its Patent Attorneys DAVIES COLLISON CAVE 9. o* 9 4