CA1282035C - Apparatus for applying pesticides to livestock - Google Patents

Abstract

ABSTRACT OF THE INVENTION

A device is described for applying pesticide to livestock which includes a vertical cylindrical reservoir and a wick positioning assembly. Wicks extend from the reservoir up through the wick positioning assembly and dangle down outside the reservoir to a level low enough so that they can brush against livestock walking beneath the device. When a liquid pesticide composition is placed is the reservoir, wicking action will carry the pesticide through the wicks and apply it to the livestock as they contact the wicks.

Description

~:8~5 BACKGRoUND OF THE INVENTION

This invention relates to controlling ectoparasites on livestock. More speciically, it concerns apparatus for applying pesticides to livestock to help control ectoparasites.

Ectoparasites such as flies, ticks and lice are a major nuisance to livestock and a costly problem to those in the business of raising and selling livestock. The bites which they inflict can transmit disease, cause weight loss through irritation and blood loss, and cause reduced milk production in dairy cattle. This problem has been recognized for many years, and many attempts have been made to overcome it, or to at least con~rol the quantity of ectoparasites that attack livestock.

- One device that has been used in the past to help combat this problem is a plastic ear tag impregnated with insecticide. Unfortunately, insecticidal aar tags usually `~ release insecticides at rates that decrease as time passes. In addition, if parasites build up a resistance to the particular insecticide in the tag, this resistance can not be combatted without placing a new tag containing a different insecticide on the animal. In this sense, ear tags have less flexibility than would be desirable.
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Dust bags and back rubbers which contain insecticidal material have also been used in the past. They are also subject to a number of problems, such as poor operation in wet weather, relatively rapid deterioration, difficult maintenance, vulnerability to destruction by weather and contact from animals, and unpredictable operation, which leads to less than optimal long-term pest control.
Further, dust bags and back rubbers do not lend themselves :
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to accommodating rapid changes in the type of pesticide applied.

Some devices have also been ~sed in the past in which wicks are used to transport insecticide in liquid form to animals. However, such wic~ing devices have not always been entirely satisfactory.

In general, devices previously used t.o apply insecticide to livestock have been relatively expensive, had limited versatility, been vulnerable to damage from weather and animals, r~leased un~redictable amounts of pesticide, and required replacement more frequently than desirable. They have also been less than optimum ln terms of maintenance, durability, ease of use (including ability to be relocated), versatility, and sureness of use.
need has existed for ma~y years and continues to ex:ist for an improved apparatus which can apply metered quant:ities of pesticides to livestock in a way that wi}l provide good long-term control of ectoparasites.

SUMMARY OF THE_INVENTION

A device for applying pesticide to livestock in accordance with the present invention can include a vertical cylindrical reservoir, a wick positioning assembly, and a plurality of wicks. The vertical cylindrical reservoir is adapted to hold pesticide compositions and has an open top. The wick positioning assembly fits on top of the reservoir and has a plurality of apertures in its outer perimeter. One end of each wick extends through an aperture in the wick positioning assembly and hangs down into the reservoir. The other end of each wick hangs down outside the reservoir to an elevation lower than the bottom of the reservoir. The '~

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2~3~i device can also include means for preventing the wicks from sliding fuxther in or out of the apertures in the wic~ positioning assembly, and means for suspending the device at a selected height above a path where livestock will walk.

Davices in accordance with the present invention are intended to be suspended above paths where livestocX will walk, so that the wicks hanging down will brush against the livestocX. When the reservoir is filled with liquid pesticide, wicking action will carry the pesticide to the ends of the wicks, where it will be transferred to the livestock as they brush against the wicks. One example of a location where devices in accordance with present invention could be used is exit walkways in dairy barns.
Several devices in accordance with the present invention could be used above the same walkway to apply several different pesticides to li~estock.

~he present invention has a number of advantages over devices used previously. New pesticides can easily be added to the reservoir, so it is easy to change pesticides if parasites build up a resistance to the one to which they are currently being exposed. The devices are also durable, which will enable them to resist extreme weather `~ and harsh treatment by livestock. The devices have also been found to provide a predictable and relatively constant reIease of pesticide in terms of flow rate. This will not only conserve pesticide and reduce the operating expense of these devices, but will also minimize environmental contamination. Furthermore, the relative constancy of the release rate may help avoid the buildup o resistance to the pesticide. Ear tags, which have an ever-decreasing release rate, are subject to the resistance problem.

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Because of the simplicity of construction of the devices, they are essentially maintenance-free. They are also extremely versatile and easy to install and use.
They can be combined with other pest control techniques such as ear tags, sprays, or feed ~dditives. Further, devices in accordance with the present invention can apply pesticide to livestock without requiring the animals to be worked in chutes or head gates, which require a significant amount of labor and place an undesirable amount of stress on the animals, resulting in loss of weight and/or milk production.

BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 is an exploded side view of a device in accordance with the present invention.

Fig. 2 is a perspective view of the device of Fig. 1 when assembled.

Fig. 3 i5 a cut~away view of the device of Figs. 1 and 2.

25Fig. 4 is a perspective viaw o another device in accordance with the present invention.

Fig. 5 is a side view of the top of a vertical cylindrical reservoir suitable for use with-the device of Fig. 4.

Fig. 6 is a top view of the reservoir neck shown in Fig. 5.

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~:8Z~5 Fig. 7 is a side cross-sectional view of the lower member in a wick positioning assembly in the device of Fig. 4.

Fig. 8 is a top view of a lower member in a wick positioning assembly ln the device of Fig. 4.

Fig. 9 is a bottom view of the lower member in a wick positioning assembly in the device of Fig. 4.
Fig. lO is a bottom view of the upper me~ber in a wick positioning assembly in the device of Fig. 4.

Flg. 11 is a top view of the upper member in a wicX
positioning assembly in the device of Fig. 4.

Fig. 12 is a side cross-sectional view of a portion of the upper and lower members in the device o~ Fig. 4.

DETAILED DESCRIPTION OF SPECIFIC EMBODIMENTS

Devices in accordance with the present invention can take several forms. Two specific embodiments will be described in detail.
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A first embodiment is shown in Figs. 1-3. Fig. 1 shows several of the major components in unassembled form.
A vertical cylindrical reservoir 10 is sealed at the bottom by a cylindrical cap 12. A wick positioning assembly in the form of a reservoir cap member 14 is adapted to seal the top o the reservoir 10. A removable plug 16 is located in the top of the reservoir cap member 14 in order to allow the addition of liquid pesticide compositions. A plurality of apertur~s 18 are locatsd around the circumference of the reservoir cap : .

~32~5 member 14. In this particular embodiment, they are spaced an equal distance apart and are all located in the same horizontal plane. Each aperture 18 is adapted to allow a wick to pass through it.
Fig. 2 shows this samé device in assembled form. The ~ertical cylindrical reservoir 10, cap 12, and reservoir cap member 14 have been joi~ed together to orm an enclosed reservoir. A plurality of wicks 20 extend through the apertures 18 in the reservoir cap member 14 and downward to a level beneath the bottom of the cap 12.
A pair of eye screws 2~ are located on opposite sides of the reservoir cap member 14. Ropes 24 or the like are attached to the eye screws 22 and are used to suspend the device from some fixed support above locations frequented by the animals to be treated. By adjusting the length of the support ropes 24 or of the wicks 20, the device can be adjusted to accommodate livestock of different heights.

Fig. 3 shows the portions of the wicXs 20 that extend through the apertures 18 and into the inside of the reservoir 10. The end of each wick 20 that extends inside the device hangs downward so it can soak in the liquid p~sticide composition. It will usually be desirable to include means for preventing the wicks 20 from moving ` further in or out through the apertures 18. These means can suitably be pig rings on stainless steel clips 26.

Devices in accordance with the present invention can be constructed out of a number of different materials. A
device as shown in Figs. 1-3 can suitably be cons~ructed from a length of six i~ch nominal diameter schedule 40 high pressure PVC pipe. The cap 12 and reservoir cap member 14 can also be constructed of PVC. If the inner diameter of the reservoir 10 is 6 inches (15.2 cm) and the vertical h~ight of the reservoir is 12 inches (30.5 cm), .; ~ . .
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the liquid capacity of the assembled device will be approximately 247.6 cubic inches (4.06 1). The wicks can suitably be 1/4 inch diameter nylon ropes, which are cut to a length of about 42 inches (106.7 cm). The end of the wicks 20 that hang down inside thè reservoir 10 should be approximately 1~ inches ~3~.5 cm) lony, so they will reach all the way to the bottom of the reservoir 10 That would leave approximately 30 inches (76.2 cm) of the wick length to hang outside of the device.
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It will often be desirable to drill a small ventilation hole in the removable plug 16. Such a hole will prevent undesirable pressure build-up inside the device, especially if some component of the liguid pesticide composition is volatile.

As an example of how such a device could be used, the support ropes 24 can be used to suspend the device over an exit walkway from a dairy barn so that the bottom of the device will be approximately six inches above the backs of the largest animals that use the walkway. This will allow the portions of the wicks 20 that hang down outside the reservoir 10 to separate and touch an animal walking underneath alony its ears and the top of its head, and down its back line and sides.

A variety o liquid pesticide compositions can be-used. One suitable example is a mixture of diesel fuel and mineral oil, in a 3:1 voIume ratio with a 1% solution of permethrin insecticide. Since the wicking rate will be primarily controlled by the viscosity of the liquid pesticide composition, the greater the percentage of diesel fuel in the mixture, the faster wicking will occur and the more rapidly the pesticide composition in the reservoir will be depleted.

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s Figs. 4-11 show a second embodiment of the present invention. Fig. 4 shows the device in assembled form.
The device includes a vertical cylindrical reser~oir 40 and a wick positioning assembly 42. The wick positioning assembly includes an upper member 44 and a lower member 46. The lower member 46 includes four upward projections 48 which go through the upper member 44 and are used to secure the lower member 46 to the upper member 44. As in the previous embodiment, a plurality of wicks 50 hang downward from the wick positioning assembly 42. The upward projections 48 each have a hole 52. Two or more of the holes 52 can be used with ropes 54 to suspend the device in a desired location.

Fig. 5 shows the top neck of the vertical cylindrical reservoir 40. The top includes threads 56 which can engage a cap (not shown) so as to seal the reservoir 40 when it is shipped or stored. The top also includes two vertical slots 58 in the threads, spaced on opposite sides of the top of the reservoir 40. These slots 58 aid in connecting the reservoir 40 to the wick positioning assembly 42. -Eig. 6 shows a top view of the threaded neck of the reservoir 40, showing the two slots 58.

Fig. 7 shows the lower member 46 of the wick positioning assembly 42 from the side in cross-section.
Fig. 8 shows a top view of the lower member 46, and Eig. 9 shows a bottom view. The lower member 46 has a flat circular ~ase 60. Extending upward from the circumference of the base 60 is an upper side wall 62. The upper side wall 62 is periodically interrupted by apertures 64. In -, . .
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the center of each aperture is a vertical pointed spike 66. On top of the base 60 are four upward projections 48 which are spaced 90 degrees ro~ each other around the circular base 60. Each upward projection 48 in this embodiment has a rounded top and strai~ht vertical walls, except for an indentation 6~ in the outside edge.
The inde~tation 68 causes the upper part of the projection 48 to extend outward slightly further than the rest of the projection 48. As will be explained in more detail later, the projections 48 with the indentations 68 facilitate joining the lower member 46 to the upper member 44.

In the center of the base 60 is a circular opening 70, which allows wicks to be dipped into the vertical cylindrical reservoir 40. Extending downward from the base 50 around its outer circumference is a lower side wall 72. Unlike the upper side wall 62, the lower side wall 72 is continuous and unbroken by any apertures, and can be threaded on its inner surface.

On the inside of the lower side wall 72 are two horizontal posts 74. The horizontal posts 74 are adapted to fit into the slots 58 on the top of the reservoir 40.
As the lower member 46 and the reservoir 40 are positioned together, the posts 74 slide down the slots 58 until they are lower than a thick bottom thread 57. The reservoir is then rotated, with the posts 74 sliding underneath the thick bottom thread 57. ~t some point in the rotation, the posts 74 will wedge between the thick bottom thread 57 and the shoulder 59 of the reservoir 40, thereby firmly fastening the reservoir 40 to the lower member 46.

As can be seen more clearly in Eig. 8, four posts 76 are located on top of the base 60, two being located on each of two opposite sides. The posts 76 are adapted to . '~
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interfere with posts which are attached to the upper member 44, and will be described subsequently.

Figs. 10 and 11 show the bottom and top of the upper; 5 member 44 respectively, The upper member 44 includes a flat circular top 77 and a vertical side wall 78 which extends downward from.the outer circum~erence of the . ' top 77. There are four rectangular openings 80 in the upper member 44, and the openings 80 are adapted to ~ 10 receive the upward projections 48 on the lower member 48.
,. The walls of the openings 80 instead of being perfectly ~, vertical are preferably bevelled to improve the tightness of the.fit of the projections ,g8 with the openings 80. As can be seen by comparing Figs. 7 and 10, when the projections 48 are inserted upward through the openings 80, once the indentations 68 are above the top 77 of the upper member 44, a firm connection wîll exist between the upper member 44-and the lower member 46. Also, the holes 52 in the projections 48 can be used with ropes or the like to suspend the apparatus above a desired location.

~: The upper member 44 also has a series of downwardly extending vertical spikes 82. In addition, four : 25 downwardly extending posts 84 are arranged so they will interfere with the posts 76 on the lower member 46. By so interfering, the posts 76 and 84 will limit the number of relative positions in which the upper member 44 and lower member 46 can,be joined, Specifically, the upper member 44 and lower member 46 will have to be positioned relative - to each other so that the pairs o posts 76 are each spaced 90 from the pairs of posts 84. If there is some marking on top of the upper member 44, this will help a user judge the position of the:reservoir 40 while screwing 35 it in.

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When the device is assembled with wicks, one end of each wic~ extends down through the center opening 70 in the lower member 46 so that it hangs to the bottom of the reservoir 40. Each wick extends outward across the top of the base 60 of the lower member 46. Each wick is impaled both by an upwardly projecting spike 66 on the lower mem~er 46 and a downwardly projecting spike 82 on the - upper member 44, as shown in Fig. 12. The two sets of spikes 66 and 82 are preferably arranged so that the lower ones 66 are located slightly closer to the center axis of the device than are the upper ones 82. Whatever the spacing of the spikes from the center axis is chosen to be, by impaling the wicks the spikes help ensure that the wicks will not slide further in or out of the wic~
positioning assembly 42.

Referring back now to Fig. 4, the remaining ends o the wicks 50 hang downward to a level lower than the bottom of the reservoir 40, so they can brush against animals that walk underneath the device.

To give an idea of suitable dimensions for this second embodiment of the present invention, the upper member 44 can have an outer diameter of approximately 5.7 inches (14.5 cm), the lower member 46 an outside diameter of approximately 4.4 inches (11.2 cm), the top of the reservoir 40 an outer diameter of approximately 3.8 inches (9.7 cm), and the reservoir a capacity of approximately 9 pints (4.3 l). Of course, the dimensions could be varied to any desirable values.

Example I

Two devices in accordance with present invention were installed in a dairy barn for testing during the summer and fall. One device was suspended above an e.~it walkway 2 2~ 5 (~' ~L 8 3 from the milking parlor, while a second was placed to the side of the walkway in order to study the passive wicking rate with no animals making contact with the device. Both devices were charged with a liquid pesticide composition containing 1% permethrin in mineral oil mixed with diesel fuel, in a 1:3 ratio. ~

Calibrated capillary tubes on the devices allowed measurement of the change in volume of liquid pesticide composition in the reservoirs. In the device suspended above the walkway, 1665.3 ml of the composition was applied in 4,018 cow treatments over a 42 day test period.
This indicates that each animal had available to it on the average 4.0 mg of technical permethri~ per treatment, and lS 8.0 mg per cow per day based on a twice-per day milking schedule. Control of horn flies appeared to be essentially 100% based on vis~al observations during the test period.

The depletion rate of the liquid pesticide composi-tion from the device suspended outside the walkway appeared to be more irregular than that from the device suspended above the walkway where it would contact animals leaving the milking parlor. However, the cumulative volume depletion was fairly similar for both devices, with the one that was allowed to drip without contact with animals being somewhat higher. The device hung above the walkway dispensed approximately 400 ml by the Oth day, 800 ml by the 20th day, and 1200 ml by the 30th day in a first test. In a second test, the cumulative depletion for the 10th, 20th, 30th, and 40th days was approximately 550, 1020, 1320, and 1600 ml, respectively.

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Example II

A device in accordance with the present invention was suspended above an exit walkway from a milking area in a dairy barn. Once again, the device was charged with 1%
permethrin in mineral~oil mixed with diesel fuel in a 1:3 volume ratio. Over 200 cows were treated twice daily at milking time. Based on visual observations, horn flies were controlled by the devices during spring, summer, and fall.

In addition, after an approximately two-day adjust- -ment period, dairy cows moved through the downwardly hanging wicks without reguiring any encouragement from milking employees.

By comparison, a nearby herd of cattle treated with flucythrinate ear tags (available from American Cyanimid) at approximately the same time achieved control of horn flies for only approximately six weeksO

After 10 days, approximately 1,000 ml of liquid pesticide composition had been dispensed by the device.
At 20 days, the cumulative amount had reached approximately 1800 ml. In a second trial at the same ~ location, the volume dispensed by the 10th day was approximately 750 ml, while the cumulative volume by the 20th, 30th, 40th and 50th days, respectively, was approximately 1300, 1650, 2100, and 2600 ml.
Example III

A device in accordance with the present invention was suspended above a walkway in a dairy barn. Approximately 525 cows were treated three times a day at milking with a liquid pestlcide composition like those used in Examples I

and II. On average each cow received approximately 2.04 mg of permethrin per day. Visual observation indicated that horn fly control was essentially 100%, and house fly and stable fly problems in the milking parlor wer~ greatly reduced.

The volume depletion of the liquid pesticide composi-tion was approximately 1350 ml after 10 days and 2250 ml after 20 days.
Table 1 shows the mean number of horn flies observed on the dairy cows in Examples I through III, with the first figure in each line representing the day on which treatment with devices in accordance with the present invention began.

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-A device in accordance with the present invention was suspended over a narrow gap between past~lres on a ranch.
The beef cattle in the pastures had previously been tagged with flucythrinate ear tags at a rate of one tag per cow prior to placement of the device in accordance with ~le present invention. After six weeks of use of the ear tags alone, visual observation indicated that each head of cattle was infested with approximately 200-300 horn flies.

After the device in accordance with the present invention was installed containing a 1% permethrin liguid pesticide composition, essentially 100% horn fly control was achieved for the rest of the spring, summer, and fall.
The cattle showed no reluctance to walk under the device.

Example V
-Devices in accordance with the present invention were suspended above two exit walkways from a dairy barn. The devices were charged with a 1% permethrin solution in mineral oil, mixed with diesel fuel in a 1:3 volume ratio.
~~ Table 2 shows the volume depletion rates over an approximately seven week period.

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Based on the three-milkings-per-day schedule, cows from the wet herd using the East exit had available approximately 2.26 mg of technical permethrin per treatment, while for the West exit the figure was approximately 2.37 mg.

For comparison purposes, a dry herd of dairy cattle in a nearby pasture was sprayed with Anchor Permectrin Il (available from Anchor Labs) at labelled rates several times during the same period. Table 3 yives the mean number of horn flies (HF), house flies (HOF) and stable flies (SF) per cow on the-days indicated after the beginning of treatment.

: ' ~ ' `' ' ~8~3~i (X,' Wet Herd Dry Herd ~check) day1~ ~ermethrin _sprayed as required 1 60 60 .~0 50 50 70 4 4 ~0 30 70 ~0 22* 4 10 44 30 30 ~0 10 29 lO 10 50 20 30 30 36* 6 8 40 30 30 50 ~3 12 1~ ~0 50 50 150 SO* 10 10 40 10 10 50 15 64* lS 15 30 50 40 60 78* 10 15 40 SO 40 60 89* 15 20 30 50 60 80 20 96 10 lS 40 60 50 80 106*lO 30 ~0 60 50 80 113 20 20 20 300 lOO 80 120 lO 20 30 350 lOO 80 127 5 15 40 350 lOO 80 ~ Totals 266 329 7541670 lOOO 1290 : Averaqe 14 17 40 89 _ 53 68 * Dry herd sprayed on these dates with Anchor Permectrin II at labeled rates.

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ExamDle VI

A device in accordance with the present invention was tested on a herd of dairy cattle with a 1% permethrin liquid pesticide composition as used in the previous examples. Table 4 gives the treatment parameters.

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Table 5 shows the mean number of horn flies per cow on various dates after the initiation of the treatment.
Data is also given for a dry herd of dairy cattle which was not treated with the device in accordance with ths present invention.
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The preceding description concerns specific embodi-ments of -the present invention. Those skilled in the art wlll recognize that the present invention could take a number of forms, including many variations on the specific embodiments described in this patent.

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Claims (12)

1. A device for applying pesticide to livestock, including:

a vertical cylindrical reservoir which is adapted to hold pesticide compositions and has an open top;

a wick positioning assembly which fits on top of the reservoir and which has a plurality of apertures in its perimeter;

a plurality of wicks, one end of each wick extending through an aperture in the wick positioning assembly and hanging down into the reservoir, the other end of each wick hanging down outside the reservoir to an elevation lower than the bottom of the reservoir;

means for preventing the wicks from sliding further in or out of the apertures in the wick positioning assembly; and means for suspending the device at a selected height above a path where livestock will walk.

2. A device for applying pesticide to livestock, including:

a vertical cylindrical reservoir, which has an open top;

a reservoir cap member which is adapted to fit on top of the reservoir, the reservoir cap member having a plurality of apertures located around its circumference, spaced an equal distance apart and located in the same horizontal plane;

a plurality of wicks, one end of each wick extending through an aperture in the reservoir cap member and hanging down into the reservoir, the other end of each wick hanging down outside the reservoir to an elevation lower than the bottom of the reservoir;

means for preventing the wicks from sliding further in or out of the holes in the reservoir cap member; and means for suspending the device at a selected height above a path where livestock will walk.

3. The device of claim 2, where the reservoir cap member includes a removable plug in its top to allow liquid pesticide compositions to be added to the device.

4. The device of claim 2, where the reservoir cap member is cylindrical and open at the bottom.

5. A device for applying pesticide to livestock, including:

a vertical cylindrical reservoir which is adapted to hold liquid pesticide compositions and has an open top;

a wick positioning assembly which has a base with a circular opening to receive the open top of the reservoir, and which also has a plurality of apertures adapted for wicks to extend through;

a plurality of wicks, one end of each wick extending down through the opening in the wick positioning assembly into the reservoir, the other end extending through the apertures in the wick positioning assembly and hanging down outside the reservoir to an elevation lower than the bottom of the reservoir;

means for preventing-the wicks from sliding further in or out of the apertures in the wick positioning assembly; and means for suspending the device at a selected height above a path where livestock will walk.

6. The device of claim 5, where the wick positioning assembly includes:

a lower member which has a circular base and a vertical side wall extending upward from the base with a circular cross-section, and which also has a circular opening in the base to receive the open top of the reservoir; and an upper member which has a circular top and a vertical side wall extending downward from the top with a circular cross-section, and which is attached to the lower member.

7. The device of claim 6, where the plurality of aper-tures in the wick positioning assembly are in the side wall of the lower member.

8. The device of claim 6, where the means for preventing the wicks from sliding further in or out of the apertures in the wick positioning assembly include a plurality of pointed vertical spikes on the lower and upper members of the wick positioning assembly.

9. The device of claim 5, where the reservoir is threaded around its open top to allow it to be screwed into the opening in the wick positioning assembly.

10. A device for applying pesticide to livestock, including:
a vertical cylindrical reservoir which is adapted to hold liquid pesticide compositions and has an open top;
a wick positioning assembly which has a plurality of apertures adapted for wicks to extend through, and which comprises:
a lower member which has a circular base and a vertical side wall extending upward from the base with a circular cross section, and which also has a circular opening in the base to receive the open top of the reservoir, and an upper member which has a circular top and vertical side wall extending downward from the top with a circular cross section, and which is attached to the lower member;
a plurality of wicks, one end of each wick extending down through the opening in the wick positioning assembly into the reservoir, the other end extending through the apertures in the wick positioning assembly and hanging down outside the reservoir to an elevation lower than the bottom of the reservoir;
means for preventing the wicks from sliding further in or out of the apertures in the wick positioning assembly; and means for suspending the device at a selected height above a path where livestock will walk.

11. The device of claim 10, where the plurality of apertures in the wick positioning assembly are in the side wall of the lower member.

12. The device of claim 10, where the means for preventing the wicks from sliding further in or out of the apertures in the wick positioning assembly include a plurality of pointed vertical spikes on the lower and upper members of the wick positioning assembly.