CN106212433A - Environment-protecting intelligent electric shock deratization device - Google Patents
Environment-protecting intelligent electric shock deratization device Download PDFInfo
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- CN106212433A CN106212433A CN201610277393.XA CN201610277393A CN106212433A CN 106212433 A CN106212433 A CN 106212433A CN 201610277393 A CN201610277393 A CN 201610277393A CN 106212433 A CN106212433 A CN 106212433A
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- electric shock
- conductive plate
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01M—CATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
- A01M19/00—Apparatus for the destruction of noxious animals, other than insects, by hot water, steam, hot air, or electricity
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05C—ELECTRIC CIRCUITS OR APPARATUS SPECIALLY DESIGNED FOR USE IN EQUIPMENT FOR KILLING, STUNNING, OR GUIDING LIVING BEINGS
- H05C1/00—Circuits or apparatus for generating electric shock effects
- H05C1/04—Circuits or apparatus for generating electric shock effects providing pulse voltages
- H05C1/06—Circuits or apparatus for generating electric shock effects providing pulse voltages operating only when touched
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- Life Sciences & Earth Sciences (AREA)
- Insects & Arthropods (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Toxicology (AREA)
- Engineering & Computer Science (AREA)
- Pest Control & Pesticides (AREA)
- Wood Science & Technology (AREA)
- Zoology (AREA)
- Environmental Sciences (AREA)
- Catching Or Destruction (AREA)
Abstract
A kind of environment-protecting intelligent electric shock deratization device, belong to environmental protection deratization field, in its insulation shell, conductive soleplate is installed, installed above at conductive soleplate has conduction to protrude, the outside protruded in conduction is cased with insulation sleeve, the hole of stretching out protruded from conductive plate of conducting electricity being cased with insulation sleeve is stretched out, insulation sleeve is concordant with stretching out hole or less than one side above conductive plate in stretching out hole, the upper end that conduction is protruded is slightly above the above one side of conductive plate, on conductive soleplate one side and below conductive plate one side be fixed with extraction wire.The compact conformation of environment-protecting intelligent electric shock deratization device rationally, manufacture and easy to use, electric shock mouse effective, the efficiency of deratization is high, does not results in environmental pollution and will not discharge noxious substance, be the mouse killer of environmental protection during deratization;When not having mouse can not conduct electricity after being electrically shocked with mouse, all of circuit does not the most constitute loop, does not consume electric energy, reduces the cost of deratization.
Description
Technical field
The present invention relates to eliminate a kind of environment-protecting intelligent electric shock deratization device in plague of rats field.
Background technology
It is several that the elimination method dead mouse of useful poison of drug of the plague of rats, mouse sticking plate seizure mouse and the mouse cage currently used catches mouse
Kind.Medication is poisoned mouse with poison and is poisoned mouse with poison, and the pollution to environment is the biggest.Catching mouse U.S. one mouse of seizure with mouse sticking plate will wave
Take a mouse sticking plate, cause the cost catching mouse the highest.Although the cost catching mouse with mouse cage is low, but mouse natural disposition is crafty
Cunning, it is not easily accessed very much in mouse cage, the efficiency catching mouse is the lowest.
Summary of the invention
The purpose that the present invention relates to is to provide for a kind of devices and methods therefor using electric shock to catch mouse.
For achieving the above object, environment-protecting intelligent of the present invention electric shock deratization device mainly include shock by electricity Mus plate part and
High-voltage pulse part;Electric shock Mus plate part include insulation shell, conductive plate, stretch out hole, conduction protrusion, insulation sleeve, conductive soleplate, lead
Line;High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply.
The described bottom in insulation shell is provided with conductive soleplate, and installed above at conductive soleplate has conduction to protrude,
Conduction is protruded the following outside protruding the cylinder above flange and is cased with insulation sleeve, and the conduction being cased with insulation sleeve is protruded from conductive plate
On hole of stretching out stretch out, insulation sleeve is concordant with stretching out hole or less than one side above conductive plate, conduction is protruded in stretching out hole
Upper end is slightly above the above one side of conductive plate, on conductive soleplate one side and below conductive plate one side be fixed with extraction
Wire.
The positive pole of described power supply is connected by the input of wire with the positive pole of electric shock controller, and electric shock controller is just
First outfan of pole is connected with conductive plate or conductive soleplate by wire, and two low-pressure connectors of pulse booster are respectively with leading
Line connects the second outfan and the negative pole of power supply of the positive pole of electric shock controller, and two high-voltage output connectors of pulse booster are used
Wire connects extraction wire and the extraction wire of conductive soleplate of conductive plate respectively, and two High voltage outputs at pulse booster connect
Head is provided with unilateral diode in the connection line being connected conductive plate and conductive soleplate;The negative pole of described power supply respectively with electricity
The negative pole hitting controller connects and is connected with conductive soleplate or conductive plate.Described conductive plate is by wire and electric shock controller
When first outfan of positive pole connects, conductive soleplate is connected with the negative pole of power supply by wire;Described conductive soleplate is by leading
When line is connected with the first outfan of the positive pole of electric shock controller, conductive plate is connected with the negative pole of power supply by wire.
Described insulation shell includes square insulating shell, round insulation shell and oval insulation shell, and square insulating shell is insulation
Square shell or the square shell of fillet or the square shell of chamfering, round insulation shell is the toroidal shell of insulation, and oval insulation shell is
The oblong shell of insulation;Described conductive plate includes conduction square plate, conducting circular plate and conduction ellipsoids shape plate, conduction square plate
Being square board-like electric conductor, conducting circular annular slab is circular board-like electric conductor, and conduction ellipsoids shape annular slab is oval
Board-like electric conductor;Described conductive soleplate includes square conductive soleplate, circular conductive base plate and oblong electrical conductive base plate, square
Conductive soleplate is square board-like electric conductor, and circular conductive base plate is circular board-like electric conductor, and oblong electrical conductive base plate is ellipse
Circular board-like electric conductor.
Described insulation sleeve is the annular insulation circle body with outside flanging, including round insulation set and oval insulation
Set, round insulation set is the insulation circle body of annular, and oval insulation sleeve is the insulation circle body of oval ring;Described conductive stud
Going out to include that conducting circular protrudes and conducting polygon protrudes, it is that lower end is with the circular conduction protruding flange that conducting circular protrudes
Cylinder, it is that lower end is with the polygonal conducting post protruding flange that conducting polygon protrudes.
Described insulation shell is nonconducting, concave downward housing, and the ring surface of housing has wire fairlead and screw
Hole;Described wire fairlead is for allowing the wire drawn pass, and screw hole is for allowing the screw of fixing conductive plate pass;Described
Insulation shell use the rubber that can insulate, plastics, nylon, polyurethane, timber, a kind of material in bamboo wood or different materials system
Make, use the mode of mould injection molding to manufacture or the mode of mould extrusion molding manufactures.
Manufacturing to have on the plate face of described conductive plate and stretch out hole, the side of conductive plate manufactures to be had screw hole or not to manufacture spiral shell
Nail;Described hole of stretching out is through hole, protrudes for installing insulation sleeve and conduction;Described screw hole be used for allowing screw screw in and
Conductive plate is fixed on insulation shell.The side of described conductive plate manufactures when having screw hole, uses between conductive plate and insulation shell
Screw is fixed;When the side of conductive plate does not manufacture screw hole, fix with viscose glue between conductive plate and insulation shell.
Described conductive soleplate creates an entirety with conduction protrusion, or, by conductive soleplate and conduction protrusion point
Open manufacture recombinant together;Conductive soleplate with conduction protrusion create one overall time, conduction protrude below the most convex
Go out flange;Conductive soleplate is with when protruding separately manufactured with conduction, and below conduction protrusion, manufacture has protrusion flange.
Described conductive soleplate creates flat board.
Described conduction is protruded the following outwardly part of flange of protruding and is used for limiting lower end and the carrying of interior insulation sleeve
The weight of conductive plate, and when shocking by electricity the reversing of Mus plate part, it is possible to make conduction protrude and do not spill from conductive plate.
Below the flanging that described insulation sleeve is outside, one side protrudes the flange of lower end, flanging for being supported on conduction
One side is for allowing one side below conductive plate push down above, and insulation sleeve is used for allowing conduction protrude isolates with conductive plate.
Described conductive soleplate is the plate that can conduct electricity of the bottom being layered in insulation shell, or, conductive soleplate is to be layered on
The net that can conduct electricity of the bottom in insulation shell.
Described electric shock controller is that circuit is connected in the circulation making pulse booster produce high voltage pulse and electricity is cut off in circulation
The controller on road.When described electric shock controller does not has electric conductor to connect between conductive plate and conduction protrude, shock by electricity controller
The signal of the low pressure power circuit being not received by between conductive plate and conduction protrusion, would not interrupt the first of the controller that shocks by electricity
The output circuit of outfan, remains what the first outfan to the conductive plate or conduction of the positive pole of electronic controller protruded then
Circuit keeps unimpeded.When described electric shock controller has electric conductor to connect between conductive plate and conduction protrude, shock by electricity controller
Receive conductive plate and conduction protrude between low pressure power circuit signal after, be immediately terminated electric shock controller positive pole the
The output circuit of one outfan, is also turned on the output circuit of the second outfan of the positive pole of electric shock controller, and shock by electricity controller
The output circuit of the second outfan of positive pole in a time quantum, keep unimpeded, produce high pressure after pulse booster energising
Electricity;The output circuit of the second outfan of the positive pole of electric shock controller maintain in a time quantum unimpeded after, electric shock control
Device processed disconnects the output circuit of the second outfan of the positive pole of electric shock controller, and connects positive pole first defeated of electric shock controller
Go out the output circuit of end;The output circuit of the first outfan of the positive pole switching on and off electric shock controller so circulated and electricity
Hit the output circuit of the second outfan of the positive pole of controller, make first outfan of positive pole of electric shock controller to conductive plate or
Circuit that conduction is protruded and the second outfan to the circuit of pulse booster of the positive pole of electric shock controller produce circulative between
Have a rest and be energized and circulative interval power-off;At the electricity that the first outfan of the positive pole of electric shock controller protrudes to conductive plate or conduction
Second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by the controller that shocks by electricity during the power-off of road,
During the power on circuitry that the first outfan of the positive pole of electric shock controller protrudes to conductive plate or conduction, electric shock controller is disconnected electricity
Hit second outfan of positive pole of controller to the power-on circuit of pulse booster, so that pulse booster produces high voltage pulse
Electric shock mouse.
Described pulse booster is the booster transformer producing pulsed high-voltage.
Described unilateral diode is that the high-tension electricity that pulse booster can be allowed to export passes through, and can not allow electric shock controller
The electric current of the first outfan output flowed to the electricity of negative pole of power supply by the connecting line of the high-voltage output connector of pulse booster
Stream is unidirectionally controlled device.
Bait is need not during passing through with wait mouse during killing mouse.
When shocking by electricity mouse, the fur of the body part avoiding mouse is not easy the position of conduction, utilizes the four of mouse
The metacarpus of limb is that the optimum conductor of electricity is to the power-on circuit electric shock mouse connecting between conductive plate and conduction protrusion.
During assembling, the bottom first conductive soleplate being arranged in insulation shell, then by the connection of conductive soleplate wire from drawing
Portal outside extraction insulation shell;Afterwards, insulation sleeve is enclosed within each conduction and protrudes, then by after conductive plate upset, will be cased with absolutely
Stretching out in hole of the conduction protrusion press-in conductive plate of edge set, then conductive plate is connected with wire and draws insulation shell from fairlead
Outward, and after putting into insulation shell after conductive plate upset, conductive plate is compressed downwards, make conduction protrude and contact with conductive soleplate;It
After, with screw, conductive plate is fixed on insulation shell, or, when installing conductive plate the inner ring surface of insulation shell coated viscose glue or
The side of conductive plate is coated viscose glue and is fixed.Afterwards, drawing wire and connecting the extraction that conduction is protruded of conductive plate will be connected
Wire is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, then connects electric shock controller with wire
The positive pole of input and power supply of positive pole;Afterwards, the low-pressure connector connecting pulse booster with wire controls with electric shock
Second outfan of the positive pole of device, then another low-pressure connector of pulse booster and the negative pole of power supply is connected with wire;Finally,
What the two of pulse booster high-voltage output connector wires connected conductive plate respectively draws wire and the extraction of conduction protrusion
Wire, and pulse booster two high-voltage output connectors be connected conductive plate and connection wire that conduction is protruded connect and has
Unilateral diode.
During use, the place that the insulation shell being provided with conductive plate and conduction protrusion is positioned over mouse process is followed by energising
Source.When having mouse through out-of-date, four feet of mouse are easy to step on respectively on conductive plate and conduction is protruded, when the foot of mouse divides
Not stepping on when conductive plate and conduction protrude, the health of mouse has connected the power circuit between conductive plate and conduction protrusion;?
When the health of mouse connects the power circuit between conductive plate and conduction protrusion, the signal of the power circuit of low-voltage circuit passes to
Electric shock controller, electric shock controller has cut off the first outfan of the positive pole of electric shock controller immediately and has protruded to conductive plate or conduction
Between power-on circuit, and connected the second outfan and the power-on circuit of pulse booster of the positive pole of electric shock controller and made
Pulse booster produces high-tension electricity and shocks by electricity mouse;When the high-tension electricity of pulse booster generation completes the electric shock of a time quantum
After mouse, the second outfan to the power-on circuit of pulse booster of the positive pole that electric shock controller is disconnected electric shock controller is followed by
Lead to first outfan of positive pole of electric shock controller to the power-on circuit between conductive plate or conduction protrusion;Body due to mouse
Body has connected the power-on circuit between conductive plate and conduction protrusion, and the signal of low pressure power circuit returns to the controller that shocks by electricity, electricity
Hit controller be again off shock by electricity controller positive pole the first outfan output circuit after, connect electric shock controller positive pole
The second outfan to the power circuit of pulse booster again produce high-tension electricity electric shock mouse;When the height that pulse booster produces
After piezoelectricity completes the electric shock mouse of a time quantum again, electric shock controller is disconnected the second defeated of the positive pole of electric shock controller
Go out the first outfan holding to the circuit of pulse booster the positive pole having connected electric shock controller to protrude to conductive plate or conduction
Between power-on circuit;So power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation, until mouse
The position that health contacts with conductive plate and conduction protrusion can not connect conductive plate after being electrically shocked and drying out and conduction is protruded
Between circuit time, after the high-tension electricity that pulse booster produces completes the electric shock mouse of last time quantum, electric shock controls
Second outfan of the positive pole that device is disconnected electric shock controller has connected electric shock controller to the power-on circuit of pulse booster
Positive pole the first outfan to conductive plate or conduction protrude between power-on circuit, now, low-voltage circuit can not be formed back
Road, does not just have the signal of the power circuit of low-voltage circuit to return to the controller that shocks by electricity, and electric shock controller is maintained for connecting electric shock control
First outfan of the positive pole of device processed is unimpeded to the power-on circuit between conductive plate or conduction protrusion, meets next old at any time
The arrival of Mus.
Described environment-protecting intelligent electric shock deratization device is when shocking by electricity mouse, and the circuit passband of make pulse booster produces high pressure
First connecting valve of electricity is mouse.
When described environment-protecting intelligent electric shock deratization device can not conduct electricity after not having mouse process and mouse to be electrically shocked,
All of circuit does not the most constitute loop, does not consume electric energy, reduces the cost of deratization.
The compact conformation of environment-protecting intelligent of the present invention electric shock deratization device rationally, manufacture and easy to use, the effect of electric shock mouse
The best, it is not necessary to people guards, the efficiency of deratization is high, does not results in environmental pollution and will not discharge Toxic during deratization
Matter, is the mouse killer of environmental protection.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the sectional view of the primary structure of electric shock Mus plate part;
Fig. 2 to Fig. 7 is the structural representation of the top view of electric shock Mus plate part.
Shown in figure: conductive plate 1, conduction protrusion 2, insulation sleeve 3, conductive soleplate 4, insulation shell 5, wire 6.
Detailed description of the invention
Environment-protecting intelligent of the present invention electric shock deratization device mainly includes shock by electricity Mus plate part and high-voltage pulse part;Electric shock Mus plate
Part includes insulation shell 5, conductive plate 1, stretches out hole, conduction protrusion 2, insulation sleeve 3, conductive soleplate 4, wire 6;High-voltage pulse part
Including pulse booster, electric shock controller, unilateral diode, power supply.
The described bottom in insulation shell 5 is provided with conductive soleplate 4, and installed above at conductive soleplate 4 has conduction to protrude
2, the outside protruding the cylinder above flange protruded below 2 in conduction is cased with insulation sleeve 3, and the conduction being cased with insulation sleeve 3 protrudes 2
Hole of stretching out from conductive plate 1 is stretched out, and insulation sleeve 3 is concordant with stretching out hole or less than one side above conductive plate 1 in stretching out hole,
Conduction is protruded the upper end of 2 and is slightly above the above one side of conductive plate 1, one side and below conductive plate 1 on conductive soleplate 4
One side is fixed with extraction wire 6.
The positive pole of described power supply is connected by the input of wire with the positive pole of electric shock controller, and electric shock controller is just
First outfan of pole is connected with conductive plate 1 or conductive soleplate 4 by wire 6, and two low-pressure connectors of pulse booster are respectively
Connect the second outfan and the negative pole of power supply of the positive pole of electric shock controller with wire, two High voltage outputs of pulse booster connect
What head wire connected conductive plate 1 respectively draws wire 6 and the extraction wire 6 of conductive soleplate 4, high two of pulse booster
Pressure out splice going splice is provided with unilateral diode in the connection line being connected conductive plate 1 and conductive soleplate 4;Bearing of described power supply
Pole respectively with electric shock controller negative pole be connected and be connected with conductive soleplate 4 or conductive plate.Described conductive plate 1 is by wire 6
When being connected with the first outfan of the positive pole of electric shock controller, conductive soleplate 4 is connected with the negative pole of power supply by wire 6;Described
Conductive soleplate 4 when being connected by the first outfan of wire 6 with the positive pole of electric shock controller, conductive plate 1 is by wire 6 and electric
The negative pole in source connects.
Described insulation shell 5 includes square insulating shell 5, round insulation shell 5 and oval insulation shell 5, and square insulating shell 5 is
The square shell of insulation or the square shell of fillet or the square shell of chamfering, round insulation shell 5 is the toroidal shell of insulation, oval insulation
Shell 5 is the oblong shell of insulation;Described conductive plate 1 includes conduction square plate, conducting circular plate and conduction ellipsoids shape plate, conduction
Square plate is square board-like electric conductor, and conducting circular annular slab is circular board-like electric conductor, and conduction ellipsoids shape annular slab is
Oval board-like electric conductor;Described conductive soleplate 4 includes square conductive soleplate 4, circular conductive base plate 4 and oblong electrical conductive
Base plate 4, square conductive soleplate 4 is square board-like electric conductor, and circular conductive base plate 4 is circular board-like electric conductor, oval
Conductive soleplate 4 is oval board-like electric conductor.
Described insulation sleeve 3 is the annular insulation circle body with outside flanging, including round insulation set 3 and oval insulation
Set 3, round insulation set 3 is the insulation circle body of annular, and oval insulation sleeve 3 is the insulation circle body of oval ring;Described leads
Electricity protrudes 2 and includes that leading conducting circular protrudes and conducting polygon protrusion, and it is that lower end is with the circle protruding flange that conducting circular protrudes
The conducting post of shape, it is that lower end is with the polygonal conducting post protruding flange that conducting polygon protrudes.
Described insulation shell 5 is nonconducting, concave downward housing, and the ring surface of housing has wire fairlead and screw
Hole;Described wire fairlead is for allowing the wire 6 drawn pass, and screw hole is for allowing the screw of fixing conductive plate 1 pass;Institute
The insulation shell 5 stated uses the rubber that can insulate, plastics, nylon, polyurethane, timber, a kind of material in bamboo wood or several material
Material manufactures, and uses the mode of mould injection molding to manufacture or the mode of mould extrusion molding manufactures.
Manufacturing to have on the plate face of described conductive plate 1 and stretch out hole, the side of conductive plate 1 manufactures to be had screw hole or does not manufacture
Screw hole;Described stretch out hole be through hole, for installing insulation sleeve 3 and conduction protrusion 2;Described screw hole is used for allowing screw revolve
Enter and conductive plate 1 is fixed on insulation shell 5.The side of described conductive plate 1 manufactures when having screw hole, conductive plate 1 and insulation
It is screwed between shell 5;When the side of conductive plate 1 does not manufacture screw hole, solid with viscose glue between conductive plate 1 and insulation shell 5
Fixed.
Described conductive soleplate 4 and conduction are protruded 2 and are created an entirety, or, conductive soleplate 4 is protruded with conduction
2 separately manufactured recombinants are together;Conductive soleplate 4 and conduction protrude 2 create one overall time, conduction is protruded below 2
There is no flange;Conductive soleplate 4 is with time separately manufactured with conduction protrusion 2, and conduction protrudes manufacture below 2 flange.
Described conductive soleplate 4 creates flat board.
Described conduction is protruded the 2 outwardly parts of flange of protruding below and is used for limiting the lower end of interior insulation sleeve 3 and holding
Carry the weight of conductive plate 1, and when shocking by electricity the reversing of Mus plate part, it is possible to make conduction protrude 2 and do not spill from conductive plate 1.
Below the flanging that described insulation sleeve 3 is outside one side for be supported on conduction protrude 2 lower ends protrusion flange,
The above one side of flanging for allowing one side below conductive plate 1 push down, insulation sleeve 3 be used for allowing conduction protrude 2 with conductive plate 1 every
From.
Described conductive soleplate 4 is the plate that can conduct electricity of the bottom being layered in insulation shell, or, conductive soleplate is to be layered on
The net that can conduct electricity of the bottom in insulation shell.
Described electric shock controller is that circuit is connected in the circulation making pulse booster produce high voltage pulse and electricity is cut off in circulation
The controller on road.When described electric shock controller does not has electric conductor to connect between conductive plate 1 and conduction protrusion 2, electric shock controls
Device is not received by the signal of the low pressure power circuit between conductive plate 1 and conduction protrusion 2, would not interrupt the controller that shocks by electricity
The output circuit of the first outfan, remains that first outfan of positive pole of electronic controller is to conductive plate 1 or conduction then
The circuit protruding 2 keeps unimpeded.Described electric shock controller is when conductive plate 1 and conduction protrude and have electric conductor to connect between 2, electric
Hit controller and receive conductive plate 1 and after conduction protrudes the signal of low pressure power circuit between 2, be immediately terminated electric shock controller
The output circuit of the first outfan of positive pole, the output circuit of the second outfan of the positive pole of the controller that is also turned on shocking by electricity,
The output circuit of the second outfan of the positive pole of electric shock controller keeps unimpeded in a time quantum, and pulse booster is energized
Rear generation high-tension electricity;It is unimpeded that the output circuit of the second outfan of the positive pole of electric shock controller maintains in a time quantum
After, electric shock controller disconnects the output circuit of the second outfan of the positive pole of electric shock controller, and just connects electric shock controller
The output circuit of the first outfan of pole;So the first outfan of the positive pole switching on and off electric shock controller of circulation is defeated
Go out the output circuit of the second outfan of the positive pole of circuit and electric shock controller, make the first outfan of the positive pole of electric shock controller
Second outfan circuit product to pulse booster of the circuit of 2 and the positive pole of electric shock controller is protruded to conductive plate 1 or conduction
Raw circulative intermittently power-on and circulative interval power-off;At first outfan of positive pole of electric shock controller to conductive plate 1
Or conduction protrude 2 down circuitry time electric shock controller connected second outfan of positive pole of electric shock controller to pulse boosting
The power-on circuit of device, the electricity when the first outfan to the conductive plate 1 or conduction of the positive pole of the controller that shocks by electricity protrudes the power on circuitry of 2
Hit controller and be disconnected second outfan of positive pole of electric shock controller to the power-on circuit of pulse booster, so that pulse liter
Depressor produces high voltage pulse electric shock mouse.
Described pulse booster is the booster transformer producing pulsed high-voltage.
Described unilateral diode is that the high-tension electricity that pulse booster can be allowed to export passes through, and can not allow electric shock controller
The electric current of the first outfan output flowed to the electricity of negative pole of power supply by the connecting line of the high-voltage output connector of pulse booster
Stream is unidirectionally controlled device.
Bait is need not during passing through with wait mouse during killing mouse.
When shocking by electricity mouse, the fur of the body part avoiding mouse is not easy the position of conduction, utilizes the four of mouse
The metacarpus of limb is that the optimum conductor of electricity is to the power-on circuit electric shock mouse connecting between conductive plate and conduction protrusion.
During assembling, first conductive soleplate 4 is arranged on the bottom in insulation shell 5, then conductive soleplate 4 is connected with wire 6 and
From fairlead draws insulation shell 5;Afterwards, insulation sleeve 3 is enclosed within each conduction and protrudes on 2, then after conductive plate 1 is overturn,
The conduction being cased with insulation sleeve 3 is protruded 2 press-in the stretching out in hole of conductive plates 1, then conductive plate 1 is connected with wire 6 and from extraction
Hole is drawn outside insulation shell 5, and is compressed downwards by conductive plate 1 after putting into insulation shell 5 after being overturn by conductive plate 1, makes conduction protrusion 2
Contact with conductive soleplate 4;Afterwards, with screw, conductive plate 1 is fixed on insulation shell 5, or, will absolutely when installing conductive plate 1
The inner ring surface of edge shell 5 is coated the side of viscose glue or conductive plate 1 and is coated viscose glue and be fixed.Afterwards, the extraction of conductive plate 1 will be connected
Wire 6 and connect conduction protrude 2 draw wire 6 respectively with the first outfan and the negative pole of power supply of the positive pole of electric shock controller
Connect, then connect input and the positive pole of power supply of the positive pole of electric shock controller with wire;Afterwards, pulse boosting is connected with wire
Second outfan of the positive pole of one low-pressure connector of device and electric shock controller, then connect another of pulse booster with wire
Low-pressure connector and the negative pole of power supply;Finally, the two of pulse booster high-voltage output connector wires are connected conductive plate 1 respectively
Draw wire 6 and conduction protrude 2 extraction wire 6, and pulse booster two high-voltage output connectors be connected conduction
The connection wire 6 of plate 1 and conduction protrusion 2 connects and has unilateral diode.
During use, by be provided with conductive plate 1 with conduction protrude 2 insulation shell 5 be positioned over mouse through place after connect
Power supply.When having mouse through out-of-date, four feet of mouse are easy to step on respectively on conductive plate 1 and conduction is protruded on 2, when mouse
Foot is stepped on respectively when conductive plate 1 and conduction protrude on 2, and the health of mouse has connected conductive plate 1 and conduction protrudes the energising between 2
Loop;When the health of mouse connects the power circuit between conductive plate 1 and conduction protrusion 2, the power circuit of low-voltage circuit
Signal passes to the controller that shocks by electricity, and electric shock controller has cut off the first outfan of the positive pole of electric shock controller immediately to conductive plate
Power-on circuit between 1 or conduction protrusion 2, and connected the second outfan and the pulse booster of the positive pole of electric shock controller
Power-on circuit and make pulse booster produce high-tension electricity to mouse of shocking by electricity;When the high-tension electricity that pulse booster produces completes one
Between unit electric shock mouse after, electric shock controller is disconnected second outfan of positive pole of electric shock controller to pulse booster
The energising electricity that first outfan to the conductive plate 1 or conduction of the positive pole having connected electric shock controller after power-on circuit protrudes between 2
Road;Having connected conductive plate 1 due to the health of mouse and conduction protrudes the power-on circuit between 2, the signal of low pressure power circuit returns
Return to the controller that shocks by electricity, after the output circuit of the first outfan that electric shock controller is again off the positive pole of electric shock controller, connect
Energising is hit the second outfan to the power circuit of pulse booster of the positive pole of controller and is again produced high-tension electricity electric shock mouse;When
After the high-tension electricity that pulse booster produces completes the electric shock mouse of a time quantum again, electric shock controller is disconnected electric shock control
Second outfan of the positive pole of device processed is to the first outfan of the positive pole having connected electric shock controller after the circuit of pulse booster
The power-on circuit between 2 is protruded to conductive plate 1 or conduction;So circulation be switched on and off low-voltage circuit and pulse booster
Power-on circuit, until the positions that the health of mouse contacts with conductive plate 1 and conduction protrusion 2 can not after being electrically shocked and drying out
When connecting the circuit between conductive plate 1 and conduction protrusion 2, the high-tension electricity that pulse booster produces completes last time quantum
Electric shock mouse after, electric shock controller be disconnected electric shock controller positive pole the second outfan to pulse booster energising electricity
First outfan of the positive pole having connected electric shock controller behind road protrudes the power-on circuit between 2 to conductive plate 1 or conduction, this
Time, low-voltage circuit can not form loop, does not just have the signal of the power circuit of low-voltage circuit to return to the controller that shocks by electricity, electric shock
Controller is maintained for the energising electricity that the first outfan connecting the positive pole of electric shock controller to conductive plate 1 or conduction protrudes between 2
Road unimpeded, meets the arrival of next mouse at any time.
When shocking by electricity mouse, it is mouse that the circuit passband of make pulse booster produces the first connecting valve of high-tension electricity.?
When not having mouse can not conduct electricity after being electrically shocked with mouse, all of circuit does not the most constitute loop, does not consume electric energy,
Reduce the cost of deratization.
Claims (4)
1. an environment-protecting intelligent electric shock deratization device, it is characterised in that: described environment-protecting intelligent electric shock deratization device includes electric shock
Mus plate and high-voltage pulse part;Electric shock Mus plate part includes insulation shell, conductive plate, stretches out hole, conduction protrusion, insulation sleeve, conduction
Base plate, wire;High-voltage pulse part includes pulse booster, electric shock controller, unilateral diode, power supply;
The described bottom in insulation shell is provided with conductive soleplate, and installed above at conductive soleplate has conduction to protrude, in conduction
Protruding the following outside protruding the cylinder above flange and be cased with insulation sleeve, the conduction being cased with insulation sleeve is protruded from conductive plate
Stretching out hole to stretch out, insulation sleeve is concordant with stretching out hole or less than one side above conductive plate, the upper end that conduction is protruded in stretching out hole
The slightly above above one side of conductive plate, on conductive soleplate one side and below conductive plate one side be fixed with extraction and lead
Line;
The positive pole of described power supply is connected by the input of wire with the positive pole of electric shock controller, the positive pole of electric shock controller
First outfan is connected with conductive plate or conductive soleplate by wire, and two low-pressure connectors of pulse booster are respectively with wire even
Connect the second outfan and the negative pole of power supply, two high-voltage output connector wires of pulse booster of the positive pole of electric shock controller
Connect conductive plate respectively draws wire and the extraction wire of conductive soleplate, pulse booster two high-voltage output connectors with
Connect in the connection line of conductive plate and conductive soleplate and unilateral diode is installed;The negative pole of described power supply is controlled with electric shock respectively
The negative pole of device processed connects and is connected with conductive soleplate or conductive plate;Described conductive plate is by the positive pole of wire with electric shock controller
The first outfan when connecting, conductive soleplate is connected with the negative pole of power supply by wire;Described conductive soleplate by wire with
When first outfan of the positive pole of electric shock controller connects, conductive plate is connected with the negative pole of power supply by wire;
Described insulation shell is the square shell or the square shell of fillet or the square shell of chamfering insulated, and described conductive plate is square
Board-like electric conductor, described conductive soleplate is square board-like electric conductor;
Described insulation sleeve be annular, with outside flanging annular insulation circle body;It is lower end band that described conduction is protruded
There is the circular conducting post protruding flange;
Described insulation shell is nonconducting, concave downward housing, and the ring surface of housing has wire fairlead and screw hole;Institute
The wire fairlead stated is for allowing the wire drawn pass, and screw hole is for allowing the screw of fixing conductive plate pass;Described is exhausted
Edge shell uses the rubber that can insulate, plastics, nylon, polyurethane, timber, a kind of material in bamboo wood or different materials manufacture,
The mode using mould injection molding manufactures or the mode of mould extrusion molding manufactures;
Manufacturing to have on the plate face of described conductive plate and stretch out hole, the side of conductive plate manufactures to be had screw hole or not to manufacture screw
Hole;Described hole of stretching out is through hole, protrudes for installing insulation sleeve and conduction;Described screw hole be used for allowing screw screw in and incite somebody to action
Conductive plate is fixed on insulation shell;The side of described conductive plate manufactures when having screw hole, uses spiral shell between conductive plate and insulation shell
Nail is fixing;When the side of conductive plate does not manufacture screw hole, fix with viscose glue between conductive plate and insulation shell;
Described conductive soleplate creates an entirety with conduction protrusion, or, conductive soleplate is protruded with conduction and separates system
Make recombinant together;Conductive soleplate with conduction protrusion create one overall time, conduction protrude below do not protrude convex
Edge;Conductive soleplate is with when protruding separately manufactured with conduction, and below conduction protrusion, manufacture has protrusion flange;
Described conductive soleplate creates flat board;
Described conduction is protruded the following outwardly part of flange of protruding and is used for limiting lower end and the carrying conduction of interior insulation sleeve
The weight of plate, and when shocking by electricity the reversing of Mus plate part, it is possible to make conduction protrude and do not spill from conductive plate;
Below the flanging that described insulation sleeve is outside, one side is protruded above the flange of lower end, flanging for being supported on conduction
One side is for allowing one side below conductive plate push down, and insulation sleeve is used for allowing conduction protrude isolates with conductive plate;
Described conductive soleplate is the plate that can conduct electricity of the bottom being layered in insulation shell, or, conductive soleplate is to be layered on insulation
The net that can conduct electricity of the bottom in shell;
Described electric shock controller is that circuit is connected in the circulation making pulse booster produce high voltage pulse and circuit is cut off in circulation
Controller;When described electric shock controller does not has electric conductor to connect between conductive plate and conduction protrude, electric shock controller does not has
Receive conductive plate and conduction protrude between the signal of low pressure power circuit, the first output of the controller that would not interrupt shocking by electricity
The output circuit of end, remains the circuit that the first outfan of the positive pole of electronic controller protrudes to conductive plate or conduction then
Keep unimpeded;When described electric shock controller has electric conductor to connect between conductive plate and conduction protrude, electric shock controller receives
To conductive plate and conduction protrude between low pressure power circuit signal after, be immediately terminated positive pole first defeated of electric shock controller
Going out the output circuit of end, be also turned on the output circuit of the second outfan of the positive pole of electric shock controller, electric shock controller is just
The output circuit of the second outfan of pole keeps unimpeded in a time quantum, produces high-tension electricity after pulse booster energising;
The output circuit of the second outfan of the positive pole of electric shock controller maintain in a time quantum unimpeded after, shock by electricity controller
Disconnect the output circuit of the second outfan of the positive pole of electric shock controller, and connect the first outfan of the positive pole of electric shock controller
Output circuit;The so output circuit of the first outfan of the positive pole switching on and off electric shock controller of circulation and electric shock control
The output circuit of the second outfan of the positive pole of device processed, makes first outfan of positive pole of electric shock controller to conductive plate or conduction
The circuit and the second outfan of the positive pole of electric shock controller that protrude are logical to the circuit circulative interval of generation of pulse booster
Electric and circulative interval power-off;The circuit protruded to conductive plate or conduction at the first outfan of the positive pole of electric shock controller breaks
During electricity, second outfan power-on circuit to pulse booster of the positive pole of electric shock controller connected by electric shock controller, in electric shock
During the power on circuitry that the first outfan of the positive pole of controller protrudes to conductive plate or conduction, electric shock controller is disconnected electric shock control
Second outfan of the positive pole of device processed is to the power-on circuit of pulse booster, so that pulse booster produces high voltage pulse electric shock
Mouse;
Described pulse booster is the booster transformer producing pulsed high-voltage;
Described unilateral diode is that the high-tension electricity that pulse booster can be allowed to export passes through, and can not allow the of electric shock controller
The electric current of one outfan output flows to the electric current list of the negative pole of power supply by the connecting line of the high-voltage output connector of pulse booster
To controller;
When shocking by electricity mouse, the fur of the body part avoiding mouse is not easy the position of conduction, utilizes the extremity of mouse
Metacarpus is that the optimum conductor of electricity is to the power-on circuit electric shock mouse connecting between conductive plate and conduction protrusion;
During assembling, the bottom first conductive soleplate being arranged in insulation shell, then by conductive soleplate with wire connect and from fairlead
Outside extraction insulation shell;Afterwards, insulation sleeve is enclosed within each conduction and protrudes, then by after conductive plate upset, insulation sleeve will be cased with
Conduction protrude press-in the stretching out in hole of conductive plate, then conductive plate is connected with wire and from fairlead draws insulation shell, and
After putting into insulation shell after being overturn by conductive plate, conductive plate is compressed downwards, make conduction protrude and contact with conductive soleplate;Afterwards, use
Conductive plate is fixed on insulation shell by screw, or, when installing conductive plate, the inner ring surface of insulation shell is coated viscose glue or conduction
The side of plate is coated viscose glue and is fixed;Afterwards, drawing wire and connecting the extraction wire that conduction is protruded of conductive plate will be connected
It is connected with the first outfan of positive pole and the negative pole of power supply of electric shock controller respectively, is more just connecting electric shock controller with wire
The input of pole and the positive pole of power supply;Afterwards, a low-pressure connector and the electric shock controller of pulse booster is connected with wire
Second outfan of positive pole, then another low-pressure connector of pulse booster and the negative pole of power supply is connected with wire;Finally, by arteries and veins
Two the high-voltage output connector wires rushing booster connect the extraction wire drawing wire and conduction protrusion of conductive plate respectively,
And pulse booster two high-voltage output connectors be connected conductive plate and conduction protrude connection wire in connect have unidirectional
Diode;
During use, by be provided with conductive plate and conduction protrude insulation shell be positioned over mouse through place after switch on power;When
Having mouse through out-of-date, four feet of mouse are easy to step on respectively on conductive plate and conduction is protruded, when the foot of mouse is stepped on respectively
When conductive plate and conduction protrude, the health of mouse has connected the power circuit between conductive plate and conduction protrusion;Mouse
Health connect conductive plate and conduction protrude between power circuit time, the signal of the power circuit of low-voltage circuit pass to electric shock
Controller, electric shock controller has cut off the first outfan of the positive pole of electric shock controller immediately between conductive plate or conduction protrusion
Power-on circuit, and connected the second outfan of positive pole and the power-on circuit of pulse booster of electric shock controller and made pulse
Booster produces high-tension electricity and shocks by electricity mouse;When the high-tension electricity of pulse booster generation completes the electric shock mouse of a time quantum
After, electric shock controller is disconnected the second outfan of the positive pole of electric shock controller and connects to the power-on circuit of pulse booster
First outfan of the positive pole of electric shock controller is to the power-on circuit between conductive plate or conduction protrusion;Owing to the health of mouse connects
Having led to the power-on circuit between conductive plate and conduction protrusion, the signal of low pressure power circuit returns to the controller that shocks by electricity, electric shock control
Device processed be again off shocking by electricity controller positive pole the first outfan output circuit after, connect electric shock controller positive pole the
Two outfans produce high-tension electricity electric shock mouse again to the power circuit of pulse booster;When the high-tension electricity that pulse booster produces
After again completing the electric shock mouse of a time quantum, electric shock controller is disconnected the second outfan of the positive pole of electric shock controller
Between first outfan to the conductive plate or conduction of the positive pole having connected electric shock controller to the circuit of pulse booster protrudes
Power-on circuit;So power-on circuit being switched on and off low-voltage circuit and pulse booster of circulation, until the health of mouse
The position contacted with conductive plate and conduction protrusion can not be connected between conductive plate and conduction protrusion after being electrically shocked and drying out
Circuit time, after the high-tension electricity that pulse booster produces completes the electric shock mouse of last time quantum, electric shock controller breaks
Second outfan of the positive pole having driven electric shock controller is just connecting electric shock controller to the power-on circuit of pulse booster
First outfan of pole is to the power-on circuit between conductive plate or conduction protrusion, and now, low-voltage circuit can not form loop, just
The signal not having the power circuit of low-voltage circuit returns to the controller that shocks by electricity, and electric shock controller is maintained for connecting electric shock controller
First outfan of positive pole is unimpeded to the power-on circuit between conductive plate or conduction protrusion, meets arriving of next mouse at any time
Come.
Environment-protecting intelligent the most according to claim 1 electric shock deratization device, it is characterised in that: described environment-protecting intelligent electric shock is removed
Mus device is when shocking by electricity mouse, and it is mouse that the circuit passband of make pulse booster produces the first connecting valve of high-tension electricity.
Environment-protecting intelligent the most according to claim 1 electric shock deratization device, it is characterised in that: described environment-protecting intelligent electric shock is removed
Mus device is not when having mouse can not conduct electricity after being electrically shocked with mouse, and all of circuit does not the most constitute loop, no
Consume electric energy, reduce the cost of deratization.
Environment-protecting intelligent the most according to claim 1 electric shock deratization device, it is characterised in that: described environment-protecting intelligent electric shock is removed
The compact conformation of Mus device rationally, manufacture and easy to use, electric shock mouse effective, it is not necessary to people guards, the efficiency of deratization
Height, does not results in environmental pollution during deratization and will not discharge noxious substance, being the mouse killer of environmental protection.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610277393.XA CN106212433A (en) | 2016-05-02 | 2016-05-02 | Environment-protecting intelligent electric shock deratization device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610277393.XA CN106212433A (en) | 2016-05-02 | 2016-05-02 | Environment-protecting intelligent electric shock deratization device |
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Publication Number | Publication Date |
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CN201610277393.XA Pending CN106212433A (en) | 2016-05-02 | 2016-05-02 | Environment-protecting intelligent electric shock deratization device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114779408A (en) * | 2022-04-28 | 2022-07-22 | 李子豪 | Optical fiber coupler |
-
2016
- 2016-05-02 CN CN201610277393.XA patent/CN106212433A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114779408A (en) * | 2022-04-28 | 2022-07-22 | 李子豪 | Optical fiber coupler |
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