Apparatus for detecting operation of an electric fence and fence charger

Information

  • Patent Grant
  • 6265981
  • Patent Number
    6,265,981
  • Date Filed
    Friday, August 27, 1999
    25 years ago
  • Date Issued
    Tuesday, July 24, 2001
    23 years ago
Abstract
Detection apparatus for sensing the operational state of an electric fence and thus an electric fence charger intended to maintain an electric charge on the fence, the invention and the several embodiments thereof find compatibility with known fence chargers whether pulse or continuous in appropriate supply voltage ranges. The detection apparatus of the invention includes a power supply such as a battery to drive a light source such as a light emitting diode which is caused to flash by circuitry carried by the apparatus, the apparatus being clipped to the fence at any location thereof to connect the circuitry to the electrical load on the fence. The light source operates in the event of a failure of the fence charger to perform properly including conditions ranging from complete failure to voltage drops of a predetermined degree or in the event of an open circuit such as can be caused by a separated fence conductor such as a fence wire. The circuitry of the invention includes in the several embodiments thereof control functions based on the operation of an integrated circuit or a transistor in combination with other circuit elements.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The invention relates generally to apparatus for detection of the proper function of an electric fence and/or a fence charger intended to maintain charge on the fence. More particularly, the invention relates to a compact and durable sensing device which can be readily mounted to an electric fence for detecting proper operation of the fence and of a charging device intended to maintain a charge on the fence.




2. Description of the Prior Art




The imposition of an electrical charge on fencing intended to maintain livestock within a specified area has become well known as an alternative or addition to the fencing of livestock or the like by means of conventional fencing intended to retain such stock by virtue of the strength of the fencing rather than by an electrical charge which causes the stock to avoid the fencing. Electric fencing is charged to an appropriate voltage by means of fence charging apparatus which typically apply either continuous or pulsed current to at least one electrical conductor comprising the fencing. Examples of presently available electric fence chargers include the random pulse charging apparatus of Phillips et al which is disclosed in U.S. Pat. No. 4,316,232. McKissack, in U.S. Pat. No. 4,859,869, discloses the use of transformers for applying a continuous charge for energization of an electric fence. Standing, in U.S. Pat. Nos. 4,394,583 and 4,691,084, describe electrical fence chargers as does Shaw et al in U.S. Pat. No. 5,381,298.




While electric fence and fence charger combinations usually provide satisfactory operation, certain circumstances can occur whereby a fence can lose its electrical charge either by failure of the fence charger or by damage to the fence itself such as by cutting of the fence or other circumstance which causes an open circuit or “short” condition. While fence charging apparatus may employ visual or audible signals on the apparatus itself to indicate failure or incipient failure of the fence charger, it is not possible to determine these conditions unless personnel are deployed in the area of the fence chargers per se in order to detect such indications. Accordingly, a need has been felt in the art to provide a simple and inexpensive means by which an observer at essentially any location along an electric fence can be informed of the operational state of the electric fence so that a determination can be made in the event of an indicated failure as to whether a failure of the fence charger exists or whether conductive elements of the electric fence have been breached such as by cutting or other separation thus causing an open or short circuit. The art has previously provided monitoring an alarm system used in association with electric fences and fence chargers. Begg, in U.S. Pat. No. 4,523,187, provides one such alarm while Pope et al, in U.S. Pat. No. 4,220,949, provides a fence monitor as does Hamm in U.S. Pat. No. 5,550,530. McCutchan et al, in U.S. Pat. No. 4,297,633, provides remote devices on electric fence sections whereby the devices transmit signals to a central control location. Although the art has provided monitoring and alarm systems such as are represented by the United States patents cited herein, the art continues to feel the need for a compact and inexpensive device which can be placed on a conductive element of an electric fence and which provides a signal, particularly a visual signal in the form of a flashing light, in the event of the inability of a fence charger to maintain an electric charge on the fence or the lack of a charge on the fence such as can occur due to a separation of the electrical conductor of the fence such as by cutting or any separation causing an open or short circuit. The present invention provides in a compact, inexpensive and exceptionally durable apparatus circuitry for sensing the operational state of an electric fence and thus an electric fence charger intended to maintain an electric charge on the fence and in the several embodiments thereof finds compatibility with known fence chargers whether pulse or continuous and in supply voltage ranges of at least 3 to 15 volts DC while being operable within a wide range of temperatures at least from −40° C. to 85° C.




SUMMARY OF THE INVENTION




The invention provides a compact, inexpensive and exceptionally durable device which can be simply hung at a multiplicity of locations on a conductive portion of an electric fence with immediate electrical contact thus being provided between the fence and circuitry internal of the device, any desired number of the present devices being usable without drawing down voltage. The device of the invention in its several embodiments includes a self-contained power source such as batteries of appropriate size and voltage, a circuit board carrying circuitry elements, a source of illumination disposed within the device and a shock-resistant “plastic” lens which forms at least a part of a housing within which components of the device are disposed and interrelated for appropriate function.




Circuitry suitable to an appropriate operation of the invention can take a variety of forms according to the invention with that part of the circuitry causing communication with the electric fence and/or with the fence charger being a clip or mounting arrangement which simply and readily fits over an electrical conductor of the electric fence at any location of the fence, the clip being directly connected electrically to circuitry internal of the device, which circuitry causes operation of the device to provide an appropriate visual signal in the event of the failure of the fence to exhibit an appropriate charge or the failure of the fence charger to appropriately charge the fence. The circuitry can also sense voltage drops below a predetermined value and provides a signal indication of such a voltage drop. A particularly useful circuit defined according to the invention includes an integrated circuit as a part of the circuitry providing control, an output from the integrated circuit causing a transistor to oscillate, oscillation of the transistor controlling a light source carried by the device. It should be understood that the light source is preferably carried within the device in order to prevent damage to the light source. In this preferred circuit, the integrated circuit functions essentially as a timer and further provides means for adopting other functions to the circuitry as desired. For example, self-test functions or the like can be incorporated into the preferred circuitry due to the presence within the circuitry of the integrated circuit comprising the timer function. In a similar vein, auxiliary subsystems can be connected into the circuitry through the integrated circuit to provide other functions without any real modification of the original circuit.




The invention further contemplates provision of a control and/or timing function by means of the operation of discrete circuit elements including at least one resistor and at least one transistor which function to control the oscillation of a transistor and thus control of the light source. It is to be understood that the light source in the several embodiments of the invention can take several forms including low voltage DC lamps of the incandescent types as well as light emitting diodes of various description, it being desirable to utilize light emitting diodes having the capability of flashing operation.




In the several embodiments of the present circuitry, it is to be noted that the circuitry is not grounded to earth ground and that the electrical reference is at the battery negative terminal. Accordingly, it is thus seen that the impedance of air at the connection of the circuit to the fence conductor is used to prevent lowering of the voltage of the fence charger.




The invention in its several embodiments will be seen to be compatible with all types of fence chargers whether pulse or continuous and will accept wide ranges of supply voltages such as from 3 to 15 volts DC. The present devices function within a wide range of temperatures and within a wide range of weather conditions. The devices of the invention further will not drop the voltage of the fence charger, a clip connecting the device to the fence further connecting directly to circuitry within the device and providing input from the fence charger to such circuitry. The clip provides a means for hanging the devices of the invention on a high voltage fence wire without danger of shock. The illumination source of the several devices of the invention only flashes when a fence charger is not working properly or when the fence has an open or short circuit.




Accordingly, it is a primary object of the invention to provide a detection apparatus in several embodiments for sensing the operational state of an electric fence and thus an electric fence charger intended to maintain an electric charge on the fence, the detection apparatus being of compact, inexpensive and durable construction and housing circuitry and an illumination source driven by the circuitry, whereby the circuitry detects charge on the electric fence at any location thereof and provides an indication of malfunction when such charge does not exist due either to fence charger failure or the presence of an open circuit or short in the fence.




It is another object of the invention to provide compact and inexpensive detection devices capable of sensing the operational state of an electric fence including operation at a reduced voltage below a predetermined level at any location thereof as well as the appropriate function of an electric fence charger, the devices of the invention being usable at multiple locations and simply being clipped to or hung on electrically conductive fence elements of an electric fence at any location of the electric fence to provide an indication of the appropriate functioning of the fence and fence charger without drawing down the voltage imposed on the fence by the charger.




It is a further object of the invention to provide detection apparatus for sensing the operational state of an electric fence and thus an electric fence charger whereby an illumination source carried by the apparatus will be caused to flash in the event of a failure of the fence charger or the existence of an open circuit such as can be caused by a separated fence wire.




Further objects and advantages of the invention will become more readily apparent in light of the following detailed description of the preferred embodiments.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is an idealized perspective view illustrating a detection device configured according to the invention and including a housing carrying a power source, an illumination source, controlling circuitry and a clip or similar mechanism for hanging the assembly to a portion of an electric fence in order to effectively communicate the condition of the fence and of a fence charger intended to charge the fence to circuitry contained within the apparatus of the invention;





FIG. 2

is a circuit diagram illustrating a preferred embodiment of the circuitry of the invention; and,





FIG. 3

is a block diagram illustrating an alternative circuit which can be used in the device of FIG.


1


.











DESCRIPTION OF THE PREFERRED EMBODIMENTS




Referring now to the drawings and particularly to

FIG. 1

, a detector configured according to the invention is seen generally at


10


to comprise a housing


12


formed of a lens element


14


and a back plate


16


. A power source such as batteries


18


is mounted in any convenient fashion to an inner surface of the back plate


16


, the back plate


16


then being mounted either directly to the lens element


14


or to a rear housing element


17


in any convenient fashion. For example, the back plate


16


can be provided with screw threads (not shown) which mate with threads formed about an opening in the element


17


so that the back plate


16


can be conveniently and positively attached to the housing


12


. The lens element


14


and the rear housing element


17


can be permanently attached to each other or can be integrally formed, it only being necessary for the lens element


14


to be formed of a clear, “plastic” material having sufficient durability to withstand the rigors of the outdoor environment within which the detector


10


is intended to function.




Interiorly of the housing


12


and in a position to direct light through the lens element


14


is disposed a light source


22


, the operation of which is controlled by circuitry


26


mounted on a circuit board


20


, the circuit board


20


being mounted in any convenient fashion within the interior of the housing


12


. It is to be understood that reflector elements can be provided within the interior of the housing in order to efficiently reflect light through the lens element


14


. Further, the lens element


14


can preferably be formed of a material having a color tint which would cause illumination of the light source


22


, especially flashing illumination, to be more readily observed. In practice, an amber light emitting diode coupled with yellow reflective materials or yellow-tinted materials is preferred.




A connector


24


is mounted to the housing


12


and has conductive elements (not shown) which extend into electrical contact with the circuitry


26


mounted on the circuit board


20


. Electrical connection between this connector


24


and the circuitry


26


is illustrated in

FIGS. 2 and 3

.




The connector


24


not only provides a mechanism by which the detector


10


can be mounted to, that is, “hung” onto an electrically conductive fence element (not shown in FIG.


1


), the connector


24


also couples the circuitry


26


of the detector


10


to an electrically conductive fence element and therefore a fence charger (shown in

FIGS. 2 and 3

) without providing a shock risk. In particular, the circuitry


26


of the detector


10


is not grounded to earth ground, the electrical reference of the detector


10


thus being at the negative terminal of the battery or batteries


18


. Accordingly, the impedance of the air in the vicinity of the hanging connection acts to prevent lowering of the voltage of the fence charger. This grounding of the detector


10


to the negative terminal of the battery


18


rather than to earth ground is of very substantial importance in that any number of the detectors


10


can be hung onto an electric fence without drawing down voltage on the fence, thereby allowing detection of the operational state of the fence charger


30


and of the fence at any desired number of locations by any desired number of the detectors


10


at any given time. Further, a voltage drop on the fence of a predetermined degree, such as 1000 volts, can be detected by the detector


10


with a resulting visual indication being provided by said detector.




A consideration of the structure of the detector


10


as seen in

FIG. 1

reveals alternatives as to the construction thereof. For example, a light emitting diode can be utilized as the light source


22


and particularly a light emitting diode capable of flashing operation. While a DC-driven light source such as an incandescent bulb can be utilized, power drain on the batteries


18


will be substantially reduced through use of a light emitting diode as the light source


22


. The light source


22


is connected into the circuitry


26


in a manner as is disclosed in the discussion of

FIGS. 2 and 3

as provided hereinafter. It is further to be understood that the batteries


18


could take the form of disc-type batteries which could be mounted within circular depressions formed in the back plate


16


, for example. Such batteries are usually slotted to allow removal from circular depressions which are threaded to mate with threads formed on the batteries themselves.




Referring now to

FIG. 2

, a preferred circuit is seen as comprising the circuit


26


. The circuit


26


of

FIG. 2

includes a light emitting diode


48


having flashing capability as the light source


22


. The batteries


18


of

FIG. 1

are seen to also be a part of the circuit


26


and are described as battery


55


in the circuitry of FIG.


2


.





FIG. 2

illustrates an electrically conductive fence element


28


in schematic fashion, such a fence element


28


being typically formed of wire and being that portion of an electric fence on which the connector


24


is hung in order to mount the detector


10


to the electric fence. The fence element


28


is shown in a schematic fashion to be connected to a fence charger


30


which may essentially comprise a charger of any known type whether continuous or pulse and within the usual voltage ranges of such chargers, that is, having a supply voltage of between 3 and 15 volts DC. When the fence charger


30


is operable to charge the fence element


28


on which the detector


10


is mounted through the connector


24


, resistors


32


and


34


sense the voltage provided by the fence charger


30


. The fence charger


30


causes a small current to be fed from junction


33


of the resistors


32


and


34


, this current flowing to the base of transistor


36


and thereby turning the transistor


36


on. Activation of the transistor


36


charges capacitor


38


with a resultant activation of the transistor


40


. When the transistor


40


is thus activated or caused to be in an “on” condition, capacitor


42


is discharged through the transistor


40


, thus causing output of timer


44


to go “high”. When the output of the timer


44


goes high, transistor


46


turns off and the light source in the form of the light emitting diode


48


is also “off”. Accordingly, in the condition whereby the fence charger


30


is properly operating and causing a charge to be imposed upon the fence element


28


, the detector


10


senses the charge imposed upon the fence element


28


and thus senses that the fence charger


30


is performing properly and that a charge exists as is expected on the fence element


28


. In this condition, the light source, that is, the light emitting diode


48


, is inoperative.




In the condition whereby the fence charger is in the “off” condition for any reason such as by actual failure, the charge in the capacitor


38


slowly drops to zero volts, thus preventing the capacitor


42


from being discharged. It is thus seen that the capacitor


42


charges through resistor


50


and resistor


52


, a network


54


being essentially formed by the resistors


50


,


52


and the capacitor


42


. Once the capacitor


42


has charged up to approximately one-third of the supply voltage, the output of the timer


44


will go “low” and the capacitor


42


will slowly discharge through resistor


52


. When the capacitor


42


is discharged below approximately one-third of the supply voltage, the output of the timer


44


will go “high” and the capacitor


42


will be recharged again. This charge/recharge cycle of the capacitor


42


causes the timer


44


to oscillate the transistor


46


since the gate of the transistor


46


is controlled by the output of the timer


44


. The rate of oscillation is determined by the product of the resistor


50


, the resistor


52


and the capacitor


42


which form the network


54


as indicated previously. The light source, that is, the light emitting diode


48


, is controlled by the oscillation of the transistor


46


. Accordingly, failure of the fence charger to maintain the appropriate charge on the fence element


28


causes the light emitting diode


48


to flash and thus provide a visual failure indication. The detector


10


thus only provides a visual failure indication when the fence charger


30


is not working properly or when the electric fence has an open or short circuit such as can be caused by cutting of the fence or by a separation occurring due to the other causes.




Referring again to

FIG. 2

, it is seen that the timer


44


takes the form of an integrated circuit, the output of which at 3 controlling the gate of the transistor


46


to thereby oscillate the transistor


46


. The integrated circuit comprising the timer


44


provides flexibility to the circuit


26


when considered relative to discrete element circuitry since options can be connected to the circuit


26


through the integrated circuit comprising the timer


44


with minimum or no modification to the circuit


26


. Such modifications can include circuit subsystems providing other alarm indicators, self-test functions, etc. The integrated circuit of the circuit


26


, that is, the timer


44


, can be provided with GND at 1, a TRIGGER function at 2, an OUTPUT function at 3, a RESET function at 4, a THRESHOLD function at 6, a DISCHARGE function at 7 and a VCC function at 8. A control function could be provided at a position such as the 5 position (not shown). The circuit


26


can otherwise be provided with conventional discrete circuit elements. However, it is to be understood that the resistors can preferably be carbon film of ⅛ watt or better while capacitors are all 15 V. The light emitting diode


48


must have high MCD. Further, all transistors must have a gain of a minimum of 200 while the integrated circuit taking the form of the timer


44


is preferably of the CMOS type. The resistor


50


can be 1 M or 2 M and potted for flash rate setting. All electrical components can be surface mounted or through-hole mounted on the circuit board


20


. The detector


10


functions maximally with all types of fence chargers and especially where pulses are less than 0.5 Hz or once every two seconds. The flash rate of the detector


10


is approximately once every three seconds. It is further to be noted that the transistors


36


and


40


are NPN type transistors while the transistor


46


is a PNP transistor. The capacitors are typically 1 microfarad, 15 V electrolytic devices. The integrated circuit, that is, the timer


44


, is chosen to be a TC 555 CMOS timer.




Referring now to

FIG. 3

, an alternative circuit is seen at


57


and comprises a number of discrete circuitry elements which are present in the circuit


26


of

FIG. 2

, these elements functioning in essentially the same manner. However, the timer


44


has a transistor


56


and a resistor


58


substituted therefor. In operation, the resistors


32


and


34


sense voltage when the fence charger


30


is operating appropriately, the fence charger


30


feeding a small current from the junction


33


of the resistors


32


,


34


, this current flowing to the base of the transistor


36


with the result that the transistor


36


is turned on. The capacitor


38


is charged through the transistor


36


and turns on the transistor


40


. When the transistor


40


is in the “on” condition, the capacitor


42


is discharged through the transistor


40


causing the transistor


56


to turn off, the transistor


46


also being caused to turn off so that the light emitting diode


48


is also off. When the fence charger


30


is not functioning, the charge in the capacitor


38


slowly drops to zero volts thus preventing the capacitor


42


from being discharged. As with the circuit


26


of

FIG. 2

, the capacitor


42


charges through the resistors


50


and


52


. When the capacitor


42


has charged up to a value of approximately 0.7 V, which is the saturation point of most transistors, and thus causing the transistor


56


to turn on, the transistor


56


simultaneously turns the transistor


46


on, thus causing the light emitting diode


48


to flash. The flash rate of the light emitting diode


48


is determined by the inherent rate of the LED itself.




As is the case with the circuit


26


of

FIG. 2

, the circuit


57


is not grounded to earth ground, the electrical reference being at the negative terminal of the battery


55


. Accordingly, the impedance of the air functions to prevent lowering of the voltage of the fence charger


30


. The transistor


46


of the circuit


57


of

FIG. 3

, is an NPN transistor rather than the PNP transistor of the circuit


26


of FIG.


2


.




While the detector


10


including the circuits


26


and


57


have been described as explicit embodiments of the inventive concept disclosed herein, it is to be understood that the conformation of the detector


10


and particular circuit elements can be configured other than as explicitly shown and described herein without departing from the scope of the invention as defined by the appended claims.



Claims
  • 1. In an apparatus for sensing the operational state of an electrical fence and/or fence charger electrically connected to the fence and intended to maintain an electrical charge on the fence, the apparatus including a housing, a power supply and an indicator, the improvement comprising:a first circuit carried by the housing for sensing the electric field of at least a portion of the electric fence, the circuit being ungrounded to earth and wherein electrical reference is to a negative terminal of the power supply; and, a second circuit operable by the first circuit on reduction of the electric field for operating the power supply to drive the indicator and thereby to indicate a malfunction of the fence and/or the fence charger.
  • 2. In the apparatus of claim 1 wherein the improvement further comprises:means electrically connected to the first circuit for disposition relative to the portion of the electric fence to allow the first circuit to sense the electric field of said portion of the electric fence.
  • 3. In the apparatus of claim 2 wherein the means comprise an electrically conductive clip for engaging the portion of the electric fence.
  • 4. In the apparatus of claim 1 wherein the first circuit comprises capacitive means for being charged by a potential difference exhibited by the electric field when the electric fence and/or the fence charger is operational; the first circuit further comprising a transistor means having a base, the base of the transistor means being turned off while the capacitive means is charged, for disabling the power supply while the electric field is sensed by the first circuit.
  • 5. In the apparatus of claim 4 wherein the power supply comprises a battery.
  • 6. In the apparatus of claim 2 wherein the first circuit comprises means for limiting current to the first circuit; capacitive means having a junction for being chargeable by a potential difference existing by virtue of the electric field surrounding the portion of the electric fence when the fence is operational, and the first circuit comprises a transistor means having a base, the base of the transistor means being turned off by the junction of the capacitive means while the capacitive means is charged for disabling the power supply while the electric field is sensed by the first circuit, electromagnetic flux around the fence being at a given watt dissipation decibel noise level such that the apparatus does not require contact with the fence to sense the electric field but must be sufficiently close to the fence to sense the electric field, gauss fields of the fence being sufficient to charge the capacitive means to turn off the transistor means.
  • 7. In the apparatus of claim 1 wherein the indicator comprises a light emitting diode having flashing capability.
  • 8. In the apparatus of claim 7 wherein the second circuit comprises a timing circuit which is in the off condition when the transistor means is in the off condition, the timing circuit being turned on when the transistor means is turned on by a lack of charge on the capacitive means, the power supply thereby becoming operable to drive the light emitting diode and thus to indicate a malfunction of the electric fence and/or the fence charger.
  • 9. In the apparatus of claim 8 wherein the improvement further comprises means for detecting the level of energy to the capacitive means, the detecting means determining that the level of energy to the capacitive means has fallen below a predetermined level which is incapable of providing a clear signal to the base of the transistor means, acting to turn on the transistor means which causes operation of the power supply to drive the light emitting diode, thereby indicating malfunction of the electric fence and/or the fence charger.
  • 10. In the apparatus of claim 7 wherein at least a portion of the housing is formed of a light transmissive material to allow the light emitting diode to be visible from externally of the housing.
  • 11. In the apparatus of claim 8 wherein the timing circuit comprises an integrated circuit.
  • 12. In the apparatus of claim 11 wherein the integrated circuit is a CMOS device.
  • 13. Apparatus for sensing the operational state of an electric fence and/or a fence charger electrically connected to the fence and intended to maintain an electrical charge on the fence, comprising:a housing; a power supply carried by the housing; and, circuit means carried by the housing for sensing the electric field of at least a portion of the electric fence, the circuit being ungrounded to earth, the circuit means comprising electrically conductive means for electrical connection to the fence, air in the vicinity of the connection means acting as an impedance, thereby preventing the voltage of the fence and/or the fence charger from being lowered.
  • 14. The apparatus of claim 13 and further comprising an indicator and wherein the circuit means comprise:means for sensing voltage at the fence and/or the fence charger and generating a current fed by the charger, the current flowing to a base of a first transistor to turn the transistor to an “on” condition; a first capacitor charged by the first transistor for turning on a second transistor which allows a second capacitor to be discharged therethrough; and, timing means responsive to discharge of the second capacitor through the second transistor to go to a high condition and thus turn a third transistor off, the indicator being “on” in this condition of the fence and/or fence charger, thus indicating malfunction thereof.
  • 15. The apparatus of claim 14 wherein the charge in the first capacitor drops slowly to zero volts when the fence charger is not operational or the fence is not electrified, the second capacitor thus being prevented from being discharged and charging through first and second resistors to a given proportion of supply voltage, the output of the timing means then going low with the second capacitor slowly discharging through the second resistor, discharge of the second capacitor below the given proportion of the supply voltage causing the output of the timing means to go high thereby recharging the second capacitor, the timing means thus causing the third transistor to oscillate since a gate of the third transistor is controlled by the output of the timing means, operation of the light source being controlled by the oscillator of the third transistor, the rate of oscillation being determined by the product of the first and second resistors and the second capacitor, the indicator being activated to indicate a failure of the fence charger and/or a short condition in the fence.
  • 16. The apparatus of claim 14 wherein the voltage sensing means comprise resistors, the current flowing from a junction of the resistors.
  • 17. The apparatus of claim 13 and further comprising an indicator and wherein the circuit means comprise:means for sensing voltage at the fence charger and generating a current fed by the charger, the current flowing to a base of a first transistor to turn the transistor to an “on” condition; a first capacitor charged by the first transistor for turning on a second transistor which allows a second capacitor to be charged therethrough; and, a third transistor which is turned off on discharge of the second capacitor through the second transistor, a fourth transistor thereby being turned off, the light source being off in this condition of the fence and the fence charger, thus indicating proper functioning thereof.
  • 18. The apparatus of claim 17 wherein the voltage sensing means comprise resistors, the current flowing from a junction of the resistors.
  • 19. The apparatus of claim 13 and further comprising a lens element forming a portion of the housing, the lens element allowing light from the light source to pass externally of the housing.
  • 20. The apparatus of claim 13 wherein the lens element is formed of a clear, color-tinted material.
  • 21. The apparatus of claim 13 and further comprising a circuitboard on which major portions of the circuit means are mounted for retention internally of the housing.
  • 22. The apparatus of claim 13 and further comprising an indicator and wherein the circuit means comprise:means for sensing voltage at the fence and/or the fence charger and generating a current fed by the charger, the current flowing to a base of a transistor to turn the transistor to an “off” condition; and, timing means responsive to the transistor which when in the “off” condition causes the timing means to be “off”, thereby causing the indicator to be in an “off” condition, and wherein the timing means is in an “on” condition when the transistor is in an “on” condition, the indicator being operable to flash when in the “on” condition.
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Number Name Date Kind
4171523 Parkitny Oct 1979
4220949 Pope et al. Sep 1980
4318088 Hunter Mar 1982
4829298 Fernandes May 1989
5285195 Way et al. Feb 1994
5982291 Williams et al. Nov 1999